Successfully Mentoring Undergraduates in Research: A How to Guide for Mathematicians

ERIC Educational Resources Information Center

Dorff, Michael; Henrich, Allison; Pudwell, Lara

2017-01-01

Undergraduate research occurs in a variety of mathematical fields and in diverse settings, but all mentors of undergraduates face a number of common considerations. This article is a brief guide to help faculty with various levels of previous mentoring experience lead students in research projects. In particular, we discuss the issues of picking…

Entry Points When Undergraduate Research Mentors Reflect on Their Role: A Qualitative Case Study

ERIC Educational Resources Information Center

Wallin, Patric; Adawi, Tom

2018-01-01

Graduate students and postdoctoral researchers are increasingly taking on mentoring roles in undergraduate research (UR). There is, however, a paucity of research focusing on how they conceptualize their mentoring role. In this qualitative interview study, we identified three entry points that mentors reflect on to define their role: (1) What are…

Enhancing Undergraduate Education through Mentored Research and Practical Writing Experiences

NASA Astrophysics Data System (ADS)

Stephens, Denise C.; Hintz, Eric G.; Joner, Michael D.; Moody, J. Ward

2015-01-01

Twenty years ago I attended my very first AAS meeting as a 21-year old undergraduate physics major. At that meeting I presented the light curve of a variable star I had studied as part of a mentored research program at BYU. That opportunity to do mentored research, and to attend a professional meeting of astronomers, helped to set the foundation for my success today as an associate professor of physics and astronomy. Twenty years ago I was the student, now I am the mentor! I have eight undergraduate students whom I currently supervise in active research, four of which are presenting their senior projects at the 225th meeting of the AAS.My experience has shown me that the full impact of mentored research cannot be measured by yearly numbers or statistics. When we mentor a student, we influence their career path and choices for years to come. Where feasible, every undergraduate should have the opportunity to do research if they so choose. It is a sacrifice of our time and our effort that cannot be easily measured through numbers or results, and is only visible many years down the road as these students become the future leaders in astronomy and policy. In this poster, I will discuss the benefits of mentored research, the growth we have seen at BYU over the past twenty years with the introduction of a mentored research program, and ideas for implementing mentored research and writing into course curricula to enhance the undergraduate educational experience.

Special Issue: Mentoring Undergraduate Students

ERIC Educational Resources Information Center

Crisp, Gloria; Baker, Vicki L.; Griffin, Kimberly A.; Lunsford, Laura Gail; Pifer, Meghan J.

2017-01-01

The overarching purpose of this monograph is to move the mentoring conversation forward by offering an updated synthesis of the undergraduate mentoring scholarship published between 2008 and 2015. The compendium of research reviewed provides practitioners and researchers with an evidence-based view of the influence of mentoring on the academic and…

Race and Gender Differences in Undergraduate Research Mentoring Structures and Research Outcomes

PubMed Central

Aikens, Melissa L.; Robertson, Melissa M.; Sadselia, Sona; Watkins, Keiana; Evans, Mara; Runyon, Christopher R.; Eby, Lillian T.; Dolan, Erin L.

2017-01-01

Participating in undergraduate research with mentorship from faculty may be particularly important for ensuring the persistence of women and minority students in science. Yet many life science undergraduates at research universities are mentored by graduate or postdoctoral researchers (i.e., postgraduates). We surveyed a national sample of undergraduate life science researchers about the mentoring structure of their research experiences and the outcomes they realized from participating in research. We observed two common mentoring structures: an open triad with undergraduate–postgraduate and postgraduate–faculty ties but no undergraduate–faculty tie, and a closed triad with ties among all three members. We found that men and underrepresented minority (URM) students are significantly more likely to report a direct tie to their faculty mentors (closed triad) than women, white, and Asian students. We also determined that mentoring structure was associated with differences in student outcomes. Women’s mentoring structures were associated with their lower scientific identity, lower intentions to pursue a science, technology, engineering, and mathematics (STEM) PhD, and lower scholarly productivity. URM students’ mentoring structures were associated with higher scientific identity, greater intentions to pursue a STEM PhD, and higher scholarly productivity. Asian students reported lower scientific identity and intentions to pursue a STEM PhD, which were unrelated to their mentoring structures. PMID:28550078

Race and Gender Differences in Undergraduate Research Mentoring Structures and Research Outcomes.

PubMed

Aikens, Melissa L; Robertson, Melissa M; Sadselia, Sona; Watkins, Keiana; Evans, Mara; Runyon, Christopher R; Eby, Lillian T; Dolan, Erin L

2017-01-01

Participating in undergraduate research with mentorship from faculty may be particularly important for ensuring the persistence of women and minority students in science. Yet many life science undergraduates at research universities are mentored by graduate or postdoctoral researchers (i.e., postgraduates). We surveyed a national sample of undergraduate life science researchers about the mentoring structure of their research experiences and the outcomes they realized from participating in research. We observed two common mentoring structures: an open triad with undergraduate-postgraduate and postgraduate-faculty ties but no undergraduate-faculty tie, and a closed triad with ties among all three members. We found that men and underrepresented minority (URM) students are significantly more likely to report a direct tie to their faculty mentors (closed triad) than women, white, and Asian students. We also determined that mentoring structure was associated with differences in student outcomes. Women's mentoring structures were associated with their lower scientific identity, lower intentions to pursue a science, technology, engineering, and mathematics (STEM) PhD, and lower scholarly productivity. URM students' mentoring structures were associated with higher scientific identity, greater intentions to pursue a STEM PhD, and higher scholarly productivity. Asian students reported lower scientific identity and intentions to pursue a STEM PhD, which were unrelated to their mentoring structures. © 2017 M. L. Aikens et al. CBE—Life Sciences Education © 2017 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Mentored undergraduate research in the geosciences

NASA Astrophysics Data System (ADS)

Judge, Shelley; Pollock, Meagen; Wiles, Greg; Wilson, Mark

2012-09-01

There is little argument about the merits of undergraduate research, but it can seem like a complex, resource-intensive endeavor [e.g., Laursen et al., 2010; Lopatto, 2009; Hunter et al., 2006]. Although mentored undergraduate research can be challenging, the authors of this feature have found that research programs are strengthened when students and faculty collaborate to build new knowledge. Faculty members in the geology department at The College of Wooster have conducted mentored undergraduate research with their students for more than 60 years and have developed a highly effective program that enhances the teaching, scholarship, and research of our faculty and provides life-changing experiences for our students. Other colleges and universities have also implemented successful mentored undergraduate research programs in the geosciences. For instance, the 18 Keck Geology Consortium schools (http://keckgeology.org/), Princeton University, and other institutions have been recognized for their senior capstone experiences by U.S. News & World Report.

Race and Gender Differences in Undergraduate Research Mentoring Structures and Research Outcomes

ERIC Educational Resources Information Center

Aikens, Melissa L.; Robertson, Melissa M.; Sadselia, Sona; Watkins, Keiana; Evans, Mara; Runyon, Christopher R.; Eby, Lillian T.; Dolan, Erin L.

2017-01-01

Participating in undergraduate research with mentorship from faculty may be particularly important for ensuring the persistence of women and minority students in science. Yet many life science undergraduates at research universities are mentored by graduate or postdoctoral researchers (i.e., postgraduates). We surveyed a national sample of…

Faculty Mentoring Undergraduates: The Nature, Development, and Benefits of Mentoring Relationships

ERIC Educational Resources Information Center

McKinsey, Elizabeth

2016-01-01

Educational research shows that close student-faculty interaction is a key factor in college student learning and success. Most literature on undergraduate mentoring, however, focuses on planned programs of mentoring for targeted groups of students by non-faculty professionals or student peers. Based on the research literature and student and…

Culturally Diverse Undergraduate Researchers' Academic Outcomes and Perceptions of Their Research Mentoring Relationships

NASA Astrophysics Data System (ADS)

Byars-Winston, Angela M.; Branchaw, Janet; Pfund, Christine; Leverett, Patrice; Newton, Joseph

2015-10-01

Few studies have empirically investigated the specific factors in mentoring relationships between undergraduate researchers (mentees) and their mentors in the biological and life sciences that account for mentees' positive academic and career outcomes. Using archival evaluation data from more than 400 mentees gathered over a multi-year period (2005-2011) from several undergraduate biology research programs at a large, Midwestern research university, we validated existing evaluation measures of the mentored research experience and the mentor-mentee relationship. We used a subset of data from mentees (77% underrepresented racial/ethnic minorities) to test a hypothesized social cognitive career theory model of associations between mentees' academic outcomes and perceptions of their research mentoring relationships. Results from path analysis indicate that perceived mentor effectiveness indirectly predicted post-baccalaureate outcomes via research self-efficacy beliefs. Findings are discussed with implications for developing new and refining existing tools to measure this impact, programmatic interventions to increase the success of culturally diverse research mentees and future directions for research.

Peer mentoring for undergraduates in a research-focused diversity initiative

PubMed Central

Keller, Thomas E.; Logan, Kay; Lindwall, Jennifer; Beals, Caitlyn

2017-01-01

To provide multi-dimensional support for undergraduates from traditionally underrepresented backgrounds who aspire to careers in research, the BUILD EXITO project, part of a major NIH-funded diversity initiative, matches each scholar with three mentors: peer mentor (advanced student), career mentor (faculty adviser), and research mentor (research project supervisor). After describing the aims of the diversity initiative, the institutional context of the BUILD EXITO project, and the training program model, this article devotes special attention to the rationale for and implementation of the peer mentoring component within the context of the multi-faceted mentoring model. PMID:29398880

Peer mentoring for undergraduates in a research-focused diversity initiative.

PubMed

Keller, Thomas E; Logan, Kay; Lindwall, Jennifer; Beals, Caitlyn

2017-01-01

To provide multi-dimensional support for undergraduates from traditionally underrepresented backgrounds who aspire to careers in research, the BUILD EXITO project, part of a major NIH-funded diversity initiative, matches each scholar with three mentors: peer mentor (advanced student), career mentor (faculty adviser), and research mentor (research project supervisor). After describing the aims of the diversity initiative, the institutional context of the BUILD EXITO project, and the training program model, this article devotes special attention to the rationale for and implementation of the peer mentoring component within the context of the multi-faceted mentoring model.

Influences on Faculty Willingness to Mentor Undergraduate Students from Another University as Part of an Interinstitutional Research Training Program

PubMed Central

Morales, Danielle X.; Grineski, Sara E.; Collins, Timothy W.

2016-01-01

In 2014, the National Institutes of Health invested $31 million in 10 primary institutions across the United States through the Building Undergraduate Infrastructure Leading to Diversity (BUILD) program; one requirement of BUILD is sending undergraduate trainees from those primary institutions to partner institutions for research experiences. Mechanisms like BUILD are designed to broaden research opportunities for students, especially those from underrepresented backgrounds. However, to our knowledge, no studies have examined faculty willingness to mentor undergraduates from other institutions through structured training programs. Survey data from 536 faculty members at 13 institutions were collected in Fall 2013 and analyzed using multiple statistical techniques. Results show that faculty who valued the opportunity to increase diversity in the academy and those who believed that mentoring undergraduates benefited their own research expressed greater willingness to serve as research mentors to visiting undergraduates, and faculty who perceived that they did not have the ability to accommodate additional students expressed less willingness to do so. Most respondents viewed student and faculty incentives as motivating factors in their willingness to mentor, but their perspectives on different types of incentives varied based on faculty career stage, discipline, and research funding status. Results have important implications for designing multi-institutional undergraduate research training programs. PMID:27521237

Multilevel approach to mentoring in the Research Experiences for Undergraduates programs

NASA Astrophysics Data System (ADS)

Bonine, K. E.; Dontsova, K.; Pavao-Zuckerman, M.; Paavo, B.; Hogan, D.; Oberg, E.; Gay, J.

2015-12-01

This presentation focuses on different types of mentoring for students participating in Research Experiences for Undergraduates programs with examples, including some new approaches, from The Environmental and Earth Systems Research Experiences for Undergraduates Program at Biosphere 2. While traditional faculty mentors play essential role in students' development as researchers and professionals, other formal and informal mentoring can be important component of the REU program and student experiences. Students receive mentoring from program directors, coordinators, and on site undergraduate advisors. While working on their research projects, REU students receive essential support and mentoring from undergraduate and graduate students and postdoctoral scientists in the research groups of their primary mentors. Cohort living and group activities give multiple opportunities for peer mentoring where each student brings their own strengths and experiences to the group. Biosphere 2 REU program puts strong emphasis on teaching students to effectively communicate their research to public. In order to help REUs learn needed skills the outreach personnel at Biosphere 2 mentor and advise students both in groups and individually, in lecture format and by personal example, on best outreach approaches in general and on individual outreach projects students develop. To further enhance and strengthen outreach mentoring we used a novel approach of blending cohort of REU students with the Cal Poly STAR (STEM Teacher And Researcher) Program fellows, future K-12 STEM teachers who are gaining research experience at Biosphere 2. STAR fellows live together with the REU students and participate with them in professional development activities, as well as perform research side by side. Educational background and experiences gives these students a different view and better preparation and tools to effectively communicate and adapt science to lay audiences, a challenge commonly facing researchers but rarely taught to future scientists. In addition, REU students act as mentors themselves to the middle and high school students in Biosphere 2 Science Academy sharing with them exciting research they are doing and their experiences about doing science and life in college.

Stories of Transformation: Using Personal Narrative to Explore Transformative Experience among Undergraduate Peer Mentors

ERIC Educational Resources Information Center

Bunting, Bryce; Williams, David

2017-01-01

While past researchers suggest undergraduate peer mentors (PMs) benefit from mentoring their peers, this experience is rarely associated with transformative learning. Using narrative analysis of authentic mentoring stories, we explored how particular types of mentoring experiences contribute to transformative learning for PMs of first-year…

Culturally Diverse Undergraduate Researchers' Academic Outcomes and Perceptions of Their Research Mentoring Relationships

ERIC Educational Resources Information Center

Byars-Winston, Angela M.; Branchaw, Janet; Pfund, Christine; Leverett, Patrice; Newton, Joseph

2015-01-01

Few studies have empirically investigated the specific factors in mentoring relationships between undergraduate researchers (mentees) and their mentors in the biological and life sciences that account for mentees' positive academic and career outcomes. Using archival evaluation data from more than 400 mentees gathered over a multi-year period…

Mentor Service Themes Emergent in a Holistic, Undergraduate Peer-Mentoring Experience

ERIC Educational Resources Information Center

Ward, Elijah G.; Thomas, Earl E.; Disch, William B.

2014-01-01

Little research has focused carefully on the means by which peer mentors foster development in undergraduate protégés. Two faculty members developed a holistic, peer-mentoring project in which 26 upperclassmen mentored 74 underclassmen at a midsize, 4-year institution. Mentor journal notes, open-ended protégé responses, and participant…

An ET-CURE Pilot Project Supporting Undergraduate Training in Cancer Research, Emerging Technology, and Health Disparities

PubMed Central

Wilson, Danyell S.; Fang, Bin; Dalton, William S.; Meade, Cathy; Koomen, John M.

2012-01-01

The National Cancer Institute’s Center to Reduce Cancer Health Disparities has created pilot training opportunities under the “Continuing Umbrella of Research Experiences” (CURE) program that focus on emerging technologies (ET). In this pilot project, an eighteen month cancer biology research internship was reinforced with: instruction in an emerging technology (proteomics), a transition from the undergraduate laboratory to a research setting, education in cancer health disparities, and community outreach activities. A major goal was to provide underrepresented undergraduates with hands-on research experiences that are rarely encountered at the undergraduate level, including mentoring, research presentations, and participation in local and national meetings. These opportunities provided education and career development for the undergraduates, and they have given each student the opportunity to transition from learning to sharing their knowledge and from being mentored to mentoring others. Here, we present the concepts, curriculum, infrastructure, and challenges for this training program along with evaluations by both the students and their mentors. PMID:22528637

An ET-CURE pilot project supporting undergraduate training in cancer research, emerging technology, and health disparities.

PubMed

Wilson, Danyell S; Fang, Bin; Dalton, William S; Meade, Cathy D; Koomen, John M

2012-06-01

The National Cancer Institute's Center to Reduce Cancer Health Disparities has created pilot training opportunities under the "Continuing Umbrella of Research Experiences" program that focus on emerging technologies. In this pilot project, an 18-month cancer biology research internship was reinforced with: instruction in an emerging technology (proteomics), a transition from the undergraduate laboratory to a research setting, education in cancer health disparities, and community outreach activities. A major goal was to provide underrepresented undergraduates with hands-on research experiences that are rarely encountered at the undergraduate level, including mentoring, research presentations, and participation in local and national meetings. These opportunities provided education and career development for the undergraduates, and they have given each student the opportunity to transition from learning to sharing their knowledge and from being mentored to mentoring others. Here, we present the concepts, curriculum, infrastructure, and challenges for this training program along with evaluations by both the students and their mentors.

Faculty Motivation to Mentor Students through Undergraduate Research Programs: A Study of Enabling and Constraining Factors

ERIC Educational Resources Information Center

Morales, Danielle X.; Grineski, Sara E.; Collins, Timothy W.

2017-01-01

Undergraduate research experiences are a "high impact" educational practice that confer benefits to students. However, little attention has been paid to understanding faculty motivation to mentor undergraduate students through research training programs, even as the number of programs has grown, requiring increasing numbers of faculty…

The undergraduate-postgraduate-faculty triad: unique functions and tensions associated with undergraduate research experiences at research universities.

PubMed

Dolan, Erin L; Johnson, Deborah

2010-01-01

We present an exploratory study of how undergraduates' involvement in research influences postgraduates (i.e., graduate and postdoctoral researchers) and faculty. We used a qualitative approach to examine the relationships among undergraduates, postgraduates, and the faculty head in a research group. In this group, undergraduates viewed postgraduates as more approachable than the faculty head both literally and figuratively. Mentorship by postgraduates presented unique challenges for undergraduates, including unrealistic expectations and varying abilities to mentor. The postgraduates and faculty head concurred that undergraduates contributed to the group's success and served as a source of frustration. Postgraduates appreciated the opportunity to observe multiple approaches to mentoring as they saw the faculty head and other postgraduates interact with undergraduates. The faculty head viewed undergraduate research as important for propagating the research community and for gaining insights into undergraduates and their postgraduate mentors. These results highlight how the involvement of undergraduates and postgraduates in research can limit and enhance the research experiences of members of the undergraduate-postgraduate-faculty triad. A number of tensions emerge that we hypothesize are intrinsic to undergraduate research experiences at research universities. Future studies can focus on determining the generalizability of these findings to other groups and disciplines.

An International Conversation about Mentored Undergraduate Research and Inquiry and Academic Development

ERIC Educational Resources Information Center

Larson, Susan; Partridge, Lee; Walkington, Helen; Wuetherick, Brad; Moore, Jessie L.

2018-01-01

Recognising that regional differences in mentored undergraduate research and inquiry (URI) practices shape how academic developers might adapt international practices and resources to their local contexts, guest editor Jessie L. Moore invited four scholars to discuss the key terms, concepts, and initiatives for mentored URI in their countries.…

A Research Experience for American Indian Undergraduates: Utilizing an Actor-Partner Interdependence Model to Examine the Student-Mentor Dyad

ERIC Educational Resources Information Center

Griese, Emily R.; McMahon, Tracey R.; Kenyon, DenYelle Baete

2017-01-01

The majority of research examining Undergraduate Research Experiences focuses singularly on student-reported outcomes, often overlooking assessment of the mentor role in student learning and outcomes after these experiences. The goal of the current study was to examine the student-mentor dyad at the beginning and end of a 10-week summer research…

Thinking and Behaving Like Scientists: Perceptions of Undergraduate Science Interns and Their Faculty Mentors

ERIC Educational Resources Information Center

Kardash, CarolAnne M.; Edwards, Ordene V.

2012-01-01

We examined undergraduate research experiences (UREs) participants' and their faculty mentors' beliefs about the professional practices and dispositions of research scientists. In Study 1, 63 science interns and their mentors rated Merton's ("J Legal Political Sociol," 1:115-126, 1942) norms and Mitroff's ("Am Sociol Rev," 39 (August):579-595,…

Key Actions of Successful Summer Research Mentors

ERIC Educational Resources Information Center

Raman, D. Raj; Geisinger, Brandi N.; Kemis, Mari R.; de la Mora, Arlene

2016-01-01

Summer research opportunities for undergraduates, such as those supported by the National Science Foundation's Research Experience for Undergraduates (REU) program, can be critical experiences that help persuade students to pursue research through graduate studies. Studies analyzing the key actions of successful mentors are scarce. The goal of…

Increasing Research Productivity in Undergraduate Research Experiences: Exploring Predictors of Collaborative Faculty–Student Publications

PubMed Central

Morales, Danielle X.; Grineski, Sara E.; Collins, Timothy W.

2017-01-01

Little attention has been paid to understanding faculty–student productivity via undergraduate research from the faculty member’s perspective. This study examines predictors of faculty–student publications resulting from mentored undergraduate research, including measures of faculty–student collaboration, faculty commitment to undergraduate students, and faculty characteristics. Generalized estimating equations were used to analyze data from 468 faculty members across 13 research-intensive institutions, collected by a cross-sectional survey in 2013/2014. Results show that biomedical faculty mentors were more productive in publishing collaboratively with undergraduate students when they worked with students for more than 1 year on average, enjoyed teaching students about research, had mentored Black students, had received more funding from the National Institutes of Health, had a higher H-index scores, and had more years of experience working in higher education. This study suggests that college administrators and research program directors should strive to create incentives for faculty members to collaborate with undergraduate students and promote faculty awareness that undergraduates can contribute to their research. PMID:28747352

Group-Advantaged Training of Research (GATOR): A Metamorphosis of Mentorship

ERIC Educational Resources Information Center

Edwards, Thea M.; Smith, Barbara K.; Watts, Danielle L.; Germain-Aubrey, Charlotte C.; Roark, Alison M.; Bybee, Seth M.; Cox, Clayton E.; Hamlin, Heather J.; Guillette, Louis J., Jr.

2011-01-01

We describe Group-Advantaged Training of Research (GATOR), a yearlong structured program at the University of Florida that guided graduate student mentors and their undergraduate mentees through the mentored research process. Using the national Survey of Undergraduate Research Experiences for an academic year, we found that outcomes for our…

Assessment of Student and Faculty Mentor Perceptions of an International Undergraduate Research Program in Physical Geography

ERIC Educational Resources Information Center

Houser, Chris; Cahill, Anthony; Lemmons, Kelly

2014-01-01

In this study, we assess whether students and their faculty mentors in a Research Experience for Undergraduates program have similar perceptions about the relative importance of different outcomes of their study abroad experience. Results of a Q-analysis reveal a significant difference of opinion between the students and the faculty mentors. It is…

Applying a Proposal Guideline in Mentoring English Major Undergraduate Researchers in Taiwan

ERIC Educational Resources Information Center

Kuo, Ya-Hui

2011-01-01

Many colleges and universities in Taiwan have implemented research courses into the school curriculum in an effort to meet the demands of higher education and requirements of graduation. However, not many researchers have proposed a guideline in mentoring English major undergraduates in their research proposal writing in Taiwan. Furthermore, to…

Team-Based Multidisciplinary Research Scholarship in the Geosciences

NASA Astrophysics Data System (ADS)

Wernette, P. A.; Houser, C.; Quick, C.

2016-12-01

The traditional approach to undergraduate research can be time-intensive for both the mentee and mentor, and can deter potential undergraduates and faculty from participating in research. The Aggie Research Leadership (ARL) and Aggie Research Scholars (ARS) programs represent a team-based, vertically-tiered, and multidisciplinary approach to research that can successfully address complex and relevant research questions. The program is structured such that faculty mentor one or more graduate students or postdocs, who, in turn, mentor teams of 2 to 8 undergraduate students. While it is the responsibility of the graduate student or postdoc to put together a team that works for their research question, undergraduate teams are encouraged to be multidisciplinary in order to leverage the experience and perspective that comes from students in different areas of study. Team leaders are encouraged to discuss their research teams with the faculty mentor regularly to address any potential issues that they might be having, but team leaders are required to meet regularly with other team leaders to discuss any issues that they might be having. Meeting with new and experienced team leaders is a valuable approach to a graduate student or postdoc developing their own set of best practices for mentoring. This experience is invaluable in their future careers, regardless of the field of study. By collaborating with students from other fields of study, no one student is required to become an expert in all topics relating to the research. Another significant advantage of the ARL/ARS programs is that complex research questions are able to be examined because teams typically continue longer than a single semester or academic year. Research teams are vertically-tiered and typically include freshman through seniors. In this way, younger students on the projects are mentored by senior students when they first arrive. Eventually, the younger students will advance through to senior students and will have the opportunity to serve as mentors for incoming students. The vertically-tiered ARl/ARS programs represents a significant advantage in undergraduate research that is beneficial to undergraduate students, graduate students, post-docs, and faculty.

Influences on Faculty Willingness to Mentor Undergraduate Students from Another University as Part of an Interinstitutional Research Training Program.

PubMed

Morales, Danielle X; Grineski, Sara E; Collins, Timothy W

2016-01-01

In 2014, the National Institutes of Health invested $31 million in 10 primary institutions across the United States through the Building Undergraduate Infrastructure Leading to Diversity (BUILD) program; one requirement of BUILD is sending undergraduate trainees from those primary institutions to partner institutions for research experiences. Mechanisms like BUILD are designed to broaden research opportunities for students, especially those from underrepresented backgrounds. However, to our knowledge, no studies have examined faculty willingness to mentor undergraduates from other institutions through structured training programs. Survey data from 536 faculty members at 13 institutions were collected in Fall 2013 and analyzed using multiple statistical techniques. Results show that faculty who valued the opportunity to increase diversity in the academy and those who believed that mentoring undergraduates benefited their own research expressed greater willingness to serve as research mentors to visiting undergraduates, and faculty who perceived that they did not have the ability to accommodate additional students expressed less willingness to do so. Most respondents viewed student and faculty incentives as motivating factors in their willingness to mentor, but their perspectives on different types of incentives varied based on faculty career stage, discipline, and research funding status. Results have important implications for designing multi-institutional undergraduate research training programs. © 2016 D. X. Morales et al. CBE—Life Sciences Education © 2016 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Peer mentoring of telescope operations and data reduction at Western Kentucky University

NASA Astrophysics Data System (ADS)

Williams, Joshua; Carini, M. T.

2014-01-01

Peer mentoring plays an important role in the astronomy program at Western Kentucky University. I will describe how undergraduates teach and mentor other undergraduates the basics of operating our 0.6m telescope and data reduction (IRAF) techniques. This peer to peer mentoring creates a community of undergraduate astronomy scholars at WKU. These scholars bond and help each other with research, coursework, social, and personal issues. This community atmosphere helps to draw in and retain other students interested in astronomy and other STEM careers.

Near-Peer Mentor Model: Synergy within Mentoring

ERIC Educational Resources Information Center

Anderson, Margery K.; Tenenbaum, Laura S.; Ramadorai, Swati B.; Yourick, Debra L.

2015-01-01

The near-peer mentor model provides undergraduates and recent post-baccalaureates in the science, technology, engineering, and mathematics (STEM) fields with an internship in two related disciplines, STEM research and STEM education. The near-peer mentor is both a mentored research intern and a mentor to pre-college students. During the 2013…

Group-Effort Applied Research (GEAR): Expanding Opportunities for Undergraduate Research Through Original, Class-Based Research Projects

PubMed Central

Moore, Sean D.; Teter, Ken

2014-01-01

Undergraduate research clearly enriches the educational development of participating students, but these experiences are limited by the inherent inefficiency of the standard one student - one mentor model for undergraduate research. Group-Effort Applied Research (GEAR) was developed as a strategy to provide substantial numbers of undergraduates with meaningful research experiences. The GEAR curriculum delivers concept-driven lecture material and provides hands-on training in the context of an active research project from the instructor's lab. Because GEAR is structured as a class, participating students benefit from intensive, supervised research training that involves a built-in network of peer support and abundant contact with faculty mentors. The class format also ensures a relatively standardized and consistent research experience. Furthermore, meaningful progress toward a research objective can be achieved more readily with GEAR than with the traditional one student - one mentor model of undergraduate research because sporadic mistakes by individuals in the class are overshadowed by the successes of the group as a whole. Three separate GEAR classes involving three distinct research projects have been offered to date. In this paper, we provide an overview of the GEAR format and review some of the recurring themes for GEAR instruction. We propose GEAR can serve as a template to expand student opportunities for life science research without sacrificing the quality of the mentored research experience. PMID:24898007

Group-effort applied research: expanding opportunities for undergraduate research through original, class-based research projects.

PubMed

Moore, Sean D; Teter, Ken

2014-01-01

Undergraduate research clearly enriches the educational development of participating students, but these experiences are limited by the inherent inefficiency of the standard one student-one mentor model for undergraduate research. Group-effort applied research (GEAR) was developed as a strategy to provide substantial numbers of undergraduates with meaningful research experiences. The GEAR curriculum delivers concept-driven lecture material and provides hands-on training in the context of an active research project from the instructor's laboratory. Because GEAR is structured as a class, participating students benefit from intensive, supervised research training that involves a built-in network of peer support and abundant contact with faculty mentors. The class format also ensures a relatively standardized and consistent research experience. Furthermore, meaningful progress toward a research objective can be achieved more readily with GEAR than with the traditional one student-one mentor model of undergraduate research because sporadic mistakes by individuals in the class are overshadowed by the successes of the group as a whole. Three separate GEAR classes involving three distinct research projects have been offered to date. In this article, we provide an overview of the GEAR format and review some of the recurring themes for GEAR instruction. We propose GEAR can serve as a template to expand student opportunities for life science research without sacrificing the quality of the mentored research experience. © 2014 The International Union of Biochemistry and Molecular Biology.

Cross-Age Mentoring to Support A-Level Pupils' Transition into Higher Education and Undergraduate Students' Employability

ERIC Educational Resources Information Center

James, Alana I.

2014-01-01

Two challenges identified for psychology higher education are supporting entry students' transition, and supporting graduates' transition into employment. The evaluation of the first phase of a cross-age mentoring action research project targeting these issues is presented; eight psychology undergraduates mentored 20 A-level psychology pupils in…

Peer Mentors in Undergraduates' Research Proposal Writing in Taiwan

ERIC Educational Resources Information Center

Kuo, Ya-Hui

2010-01-01

To date, there has been little research in the existing literature exploring how peer mentors can assist college students' research proposal. This paper provides the background to the adoption of a peer mentoring program in a research writing class in Taiwan. The purpose of this study is to investigate the value of using peer mentors to assist…

Mentoring for Inclusion: The Impact of Mentoring on Undergraduate Researchers in the Sciences

ERIC Educational Resources Information Center

Haeger, Heather; Fresquez, Carla

2016-01-01

Increasing inclusion of underrepresented minority and first-generation students in mentored research experiences both increases diversity in the life sciences research community and prepares students for successful careers in these fields. However, analyses of the impact of mentoring approaches on specific student gains are limited. This study…

Improving Program Design and Assessment with Broadening Participation Resources

NASA Astrophysics Data System (ADS)

Siegfried, D.; Johnson, A.; Thomas, S. H.; Fauver, A.; Detrick, L.

2012-12-01

Many theoretical and research-based approaches suggest how to best use mentoring to enhance an undergraduate research program. The Institute for Broadening Participation's Pathways to Engineering and Pathways to Ocean Sciences projects synthesized a set of mentoring studies, theoretical sources, and other texts pertinent to undergraduate research program design into a suite of practical tools that includes an online mentoring manual, an online reference library of mentoring and diversity literature, and practical guides such as Using Social Media to Build Diversity in Your REU. The overall goal is to provide easy-to-access resources that can assist faculty and program directors in implementing or honing the mentoring elements in their research programs for undergraduates. IBP's Online Mentoring Manual addresses common themes, such as modeling, student self-efficacy, career development, retention and evaluation. The Online Diversity Reference Library provides a comprehensive, annotated selection of key policy documents, research studies, intervention studies, and other texts on broadening participation in science, technology, engineering and mathematics. IBP's suite of tools provides the theoretical underpinnings and research findings that can help leaders in education integrate site-appropriate mentoring elements into their educational programs. Program directors and faculty from a variety of program types and disciplines have benefitted from using the Manual and other resources. IBP continues the work of translating and synthesizing theory to practice and welcomes your participation and partnership in that effort.

Assessing Student-Mentor Interaction During a Summer REU for Two Year College Students

NASA Astrophysics Data System (ADS)

Doser, D. I.; Olivarez, A.; Rohrbaugh, R.; Villalobos, J. I.

2017-12-01

UTEP-ROCCS (Research Opportunities for Community College Students) is a summer REU program designed exclusively for two-year college students. The program differs from other summer REU's in several ways. First, the participants are only in El Paso during the month of June to begin their research projects, with subsequent research carried out at their home institutions with intensive virtual mentoring in July. Second, the mentoring team is a unique mix of 2-year and 4-year college faculty and undergraduate juniors and seniors. Our first cohort of 6 ROCCS students began their research in June 2017 supported by 2 UTEP undergraduate mentors and 5 faculty mentors. Preliminary results of a series of 4 weekly road checks indicate that 95% of the time the participants felt the faculty and student mentors were supportive, encouraging, and able to respond to their questions and concerns. All felt they received constructive, useful critiques of their field and research work, were motivated by the mentors to learn more and were challenged to extend their abilities and skills for the success of their research projects. Over 70% of the time they felt the mentors encouraged them by suggesting appropriate and available resources when they were struggling. And, most importantly, over 96% of the time they felt the experience stimulated their interest in geology as a future career. We hope to observe similar trends in the road checks of July 2017 as participants prepare their results for the AGU's fall virtual undergraduate poster session.

The Role of Student-Advisor Interactions in Apprenticing Undergraduate Researchers into a Scientific Community of Practice

NASA Astrophysics Data System (ADS)

Thiry, Heather; Laursen, Sandra L.

2011-12-01

Among science educators, current interest in undergraduate research (UR) is influenced both by the traditional role of the research apprenticeship in scientists' preparation and by concerns about replacing the current scientific workforce. Recent research has begun to demonstrate the range of personal, professional, and intellectual benefits for STEM students from participating in UR, yet the processes by which student-advisor interactions contribute to these benefits are little understood. We employ situated learning theory (Lave and Wenger, Situated learning: legitimate peripheral participation, Cambridge University Press, Cambridge in 1991) to examine the role of student-advisor interactions in apprenticing undergraduate researchers, particularly in terms of acculturating students to the norms, values, and professional practice of science. This qualitative study examines interviews with a diverse sample of 73 undergraduate research students from two research-extensive institutions. From these interviews, we articulate a continuum of practices that research mentors employed in three domains to support undergraduate scientists-in-training: professional socialization, intellectual support, and personal/emotional support. The needs of novice students differed from those of experienced students in each of these areas. Novice students needed clear expectations, guidelines, and orientation to their specific research project, while experienced students needed broader socialization in adopting the traits, habits, and temperament of scientific researchers. Underrepresented minority students, and to a lesser extent, women, gained confidence from their interactions with their research mentors and broadened their future career and educational possibilities. Undergraduate research at research-extensive universities exemplifies a cycle of scientific learning and practice where undergraduate researchers are mentored by graduate students and postdoctoral researchers, who are themselves apprentices to faculty members. As such, research mentors of undergraduate students should be aware of the dual scientific and educational aspects of their advising role and its significance in shaping students' identities and career trajectories.

The Value of Preparing PhD Students as Research Mentors: Application of Kram's Temporal Mentoring Model.

PubMed

Abbott-Anderson, Kristen; Gilmore-Bykovskyi, Andrea; Lyles, Annmarie A

The ability to successfully mentor others is an essential skill necessary for building and strengthening an infrastructure of well-prepared nurse faculty to accelerate advancements in nursing science. Mentoring is a fundamental part of the nurse faculty role, but new faculty are often unprepared to take on mentoring roles early in their academic career. Applied training in research mentoring initiated during doctor of philosophy (PhD) programs may better prepare future faculty to manage teaching and mentoring responsibilities earlier and with greater confidence. The unique opportunity exists for PhD students to engage in research mentoring with undergraduate nursing students, with probable benefits for both the mentor and the mentee. This manuscript uses Kram's temporal mentoring model as a guide to examine the training experiences of 3 PhD students mentoring undergraduate nursing students and discusses the benefits and challenges associated with these mentoring relationships. Collectively, these experiences provide preliminary support and guidance for the development and adoption of formal PhD mentor training programs to better prepare future PhD nursing faculty for their mentoring responsibilities. Copyright © 2016 Elsevier Inc. All rights reserved.

Want to Improve Undergraduate Thesis Writing? Engage Students and Their Faculty Readers in Scientific Peer Review

ERIC Educational Resources Information Center

Reynolds, Julie A.; Thompson, Robert J., Jr.

2011-01-01

One of the best opportunities that undergraduates have to learn to write like a scientist is to write a thesis after participating in faculty-mentored undergraduate research. But developing writing skills doesn't happen automatically, and there are significant challenges associated with offering writing courses and with individualized mentoring.…

Mentoring Undergraduate Students in Estuarine Research Experiences: Different Strokes for Different Folks

NASA Astrophysics Data System (ADS)

Moser, F. C.; Allen, M. R.; Montoya-Ospina, R. A.; Maldonado, P.; Barberena-Arias, M.; Olivo-Delgado, C.; Harris, L.; Pierson, J. J.; Alvarez, J. P.

2015-12-01

Here we consider how mentoring, both traditional and peer based, contributes to successful student outcomes in undergraduate research programs and we present several approaches to encourage positive mentor-mentee relationships. From several different research mentoring programs with undergraduates in Maryland and in Puerto Rico, we find that some mentoring techniques are universally useful, while others need to be tailored to a specific program and mentee population. Our programs differ in length, student composition, and student expectations, we find that success occurs across-the-board when mentors quickly establish rapport with their students and reach an early joint understanding of the program's requirements and the students' capabilities and needs through immersive orientations early in the program. Alternatively, mentors have to customize their approaches (e.g. simplify presentations of concepts, increase time for questions) when they encounter differences in student knowledge levels and cultural disconnects (e.g. language barriers, unfamiliarity with research labs and academia). Our current approach to improving and evaluating mentoring includes using a system of multiple mentor tiers (peer, near-peer, faculty, and program leaders), multiple qualitative and quantitative evaluations during the program, and post-research experience student outreach, all of which we believe improve student outcomes. Although we have measures of mentee success (e.g., presenting at national meetings, pursuing additional research experiences, applying to graduate school in marine science-related fields, etc.), we continue to look for additional short and long-term evaluation techniques that may help us to distinguish between the influence of mentoring and that of other program attributes (e.g. lab and field experiences, professional development seminars, ethics training, etc.) on student achievement.

A Prototype Two-tier Mentoring Program for Undergraduate Summer Interns from Minority-Serving Institutions at the University of Alaska Fairbanks

NASA Astrophysics Data System (ADS)

Gens, R.; Prakash, A.; Ozbay, G.; Sriharan, S.; Balazs, M. S.; Chittambakkam, A.; Starkenburg, D. P.; Waigl, C.; Cook, S.; Ferguson, A.; Foster, K.; Jones, E.; Kluge, A.; Stilson, K.

2013-12-01

The University of Alaska Fairbanks (UAF) is partnering with Delaware State University, Virginia State University, Elizabeth City State University, Bethune-Cookman University, and Morgan State University on a U.S. Department of Agriculture - National Institute for Food and Agriculture funded grant for ';Enhancing Geographic Information System Education and Delivery through Collaboration: Curricula Design, Faculty, Staff, and Student Training and Development, and Extension Services'. As a part of this grant, in summer 2013, UAF hosted a week long workshop followed by an intense two week undergraduate internship program. Six undergraduate students from partnering Universities worked with UAF graduate students as their direct mentors. This cohort of undergraduate mentees and graduate student mentors were in-turn counseled by the two UAF principal investigators who served as ';super-mentors'. The role of each person in the two-tier mentoring system was well defined. The super-mentors ensured that there was consistency in the way the internship was setup and resources were allocated. They also ensured that there were no technical glitches in the research projects and that there was healthy communication and interaction among participants. Mentors worked with the mentees ahead of time in outlining a project that aligned with the mentees research interest, provided basic reading material to the interns to get oriented, prepared the datasets required to start the project, and guided the undergraduates throughout the internship. Undergraduates gained hands-on experience in geospatial data collection and application of tools in their projects related to mapping geomorphology, landcover, geothermal sites, fires, and meteorological conditions. Further, they shared their research results and experiences with a broad university-wide audience at the end of the internship period. All participants met at lunch-time for a daily science talk from external speakers. The program offered a rich and gratifying experience for all participants. Undergraduate students got a sneak-peek into a career in higher academia before stepping into graduate school. Graduate students gained mentoring experience, and also learned the importance of good time management and setting clear expectations.

Mentoring Interdisciplinary Undergraduate Students via a Team Effort

ERIC Educational Resources Information Center

Karsai, Istvan; Knisley, Jeff; Knisley, Debra; Yampolsky, Lev; Godbole, Anant

2011-01-01

We describe how a team approach that we developed as a mentoring strategy can be used to recruit, advance, and guide students to be more interested in the interdisciplinary field of mathematical biology, and lead to success in undergraduate research in this field. Students are introduced to research in their first semester via lab rotations. Their…

Becoming a More Effective Research Mentor for Your Trainees: Undergraduates to Post-docs

NASA Astrophysics Data System (ADS)

Hooper, Eric J.; Mathieu, R.; Pfund, C.; Branchaw, J.; UW-Madison Research Mentor Training Development Team

2010-05-01

How do you effectively mentor individuals at different stages of their careers? Can you learn to become a more effective mentor through training? Does one size fit all? Are you ready to address the NSF's new requirement about mentoring post-docs in your next proposal? For many academics, typical answers to these questions include, "I try to make adjustments based on the trainee, but I don't have a specific plan” "Yeah, I'd better start thinking about that” and "There's training?” Scientists often are not trained for their crucial role of mentoring the next generation. The University of Wisconsin-Madison has developed, field tested, and publicly released research mentor training materials for several STEM (science, technology, engineering and mathematics) disciplines, including astronomy, to help fill this gap and improve the educational experience and ultimate success of research trainees at several career stages, from high school students to post-doctoral scholars. While initially aimed at the mentoring of undergraduate researchers at research extensive institutions, the topics are broad enough (e.g., expectations, communication, understanding, diversity, ethics, independence) to be applicable to mentoring in a wide range of project-based educational activities. Indeed, these materials have been modified, only modestly, to prepare graduate students and undergraduates to mentor high school students. In this session, we will describe the UW-Madison research mentor training seminar and illustrate how the training can be adapted and implemented. We will introduce an interactive "shopping cart” style website which allows users to obtain the materials and instructions on how to run the program at their institution. Most of the session will be devoted to an interactive implementation of elements of research mentor training using small discussion groups. Participants will experience the training seminar in practice, come face-to-face with some common mentoring challenges, and have a chance to reflect upon and discuss these challenges.

Learning to Be a More Effective Research Mentor for Your Trainees: Undergraduates to Post-docs

NASA Astrophysics Data System (ADS)

Hooper, Eric; Mathieu, R.; Pfund, C.; Branchaw, J.; UW-Madison Research Mentor Training Development Team

2010-01-01

How do you effectively mentor individuals at different stages of their careers? Can you learn to become a more effective mentor through training? Does one size fit all? Are you ready to address the NSF's new requirement about mentoring post-docs in your next proposal? For many academics, typical answers to these questions include, "I try to make adjustments based on the trainee, but I don't have a specific plan” "Yeah, I'd better start thinking about that” and "There's training?” Scientists often are not trained for their crucial role of mentoring the next generation. The University of Wisconsin-Madison has developed, field tested, and publically released research mentor training materials for several STEM (science, technology, engineering and mathematics) disciplines, including astronomy, to help fill this gap and improve the educational experience and ultimate success of research trainees at several career stages, from high school students to post-doctoral scholars. While initially aimed at the mentoring of undergraduate researchers at research extensive institutions, the topics are broad enough (e.g., expectations, communication, understanding, diversity, ethics, independence) to be applicable to mentoring in a wide range of project-based educational activities. Indeed, these materials have been modified, only modestly, to prepare graduate students and undergraduates to mentor high school students. In this session, we will describe the UW-Madison research mentor training seminar and illustrate how the training can be adapted and implemented. We will introduce an interactive "shopping cart” style website which allows users to obtain the materials and instructions on how to run the program at their institution. Most of the session will be devoted to an interactive implementation of elements of research mentor training using small discussion groups. Participants will experience the training seminar in practice, come face-to-face with some common mentoring challenges, and have a chance to reflect upon and discuss these challenges.

Increasing Research Productivity in Undergraduate Research Experiences: Exploring Predictors of Collaborative Faculty-Student Publications.

PubMed

Morales, Danielle X; Grineski, Sara E; Collins, Timothy W

2017-01-01

Little attention has been paid to understanding faculty-student productivity via undergraduate research from the faculty member's perspective. This study examines predictors of faculty-student publications resulting from mentored undergraduate research, including measures of faculty-student collaboration, faculty commitment to undergraduate students, and faculty characteristics. Generalized estimating equations were used to analyze data from 468 faculty members across 13 research-intensive institutions, collected by a cross-sectional survey in 2013/2014. Results show that biomedical faculty mentors were more productive in publishing collaboratively with undergraduate students when they worked with students for more than 1 year on average, enjoyed teaching students about research, had mentored Black students, had received more funding from the National Institutes of Health, had a higher H-index scores, and had more years of experience working in higher education. This study suggests that college administrators and research program directors should strive to create incentives for faculty members to collaborate with undergraduate students and promote faculty awareness that undergraduates can contribute to their research. © 2017 D. X. Morales et al. CBE—Life Sciences Education © 2017 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Group-effort Applied Research: Expanding Opportunities for Undergraduate Research through Original, Class-Based Research Projects

ERIC Educational Resources Information Center

Moore, Sean D.; Teter, Ken

2014-01-01

Undergraduate research clearly enriches the educational development of participating students, but these experiences are limited by the inherent inefficiency of the standard one student-one mentor model for undergraduate research. Group-effort applied research (GEAR) was developed as a strategy to provide substantial numbers of undergraduates with…

Improving Project Performance through Implementation of Agile Methodologies in the Renewable Energy Construction Industry

NASA Astrophysics Data System (ADS)

Hernandez Mendez, Arturo

Collaborative inquiry within undergraduate research experiences (UREs) is an effective curriculum tool to support student growth. This study seeks to understand how collaborative inquiry within undergraduate biology student experiences are affected within faculty mentored experiences and non-mentored experiences at a large private southeastern university. Undergraduate biology students engaged in UREs (faculty as mentor and non-mentor experiences) were examined for statistically significant differences in student self-efficacy. Self-efficacy was measured in three subcomponents (thinking and working like a scientist, scientific self-efficacy, and scientific identity) from student responses obtained in an online survey. Responses were analyzed using a nonparametric equivalent of a t test (Mann Whitney U test) to make comparisons between faculty mentored and non-mentored student groups. The conclusions of this study highlight the statistically significant effect of faculty mentoring in all three subcomponents. Faculty and university policy makers can apply these findings to develop further support for effective faculty mentoring practices in UREs.

Mentoring Student Participation in Undergraduate Research: A Case Study of Twists and Turns from Two Perspectives

ERIC Educational Resources Information Center

Perez, Ismael; Bowers, Janet; Salamon, Peter

2017-01-01

Undergraduate research experiences provide excellent examples of high-impact practices. They rely on inquiry-based learning to provide important capstone experiences for the students. However, they are time-intensive for mentor faculty. In an attempt to scale up our faculty's ability to offer such experiences, we combined a number of projects into…

Entering research: A course that creates community and structure for beginning undergraduate researchers in the STEM disciplines.

PubMed

Balster, Nicholas; Pfund, Christine; Rediske, Raelyn; Branchaw, Janet

2010-01-01

Undergraduate research experiences have been shown to enhance the educational experience and retention of college students, especially those from underrepresented populations. However, many challenges still exist relative to building community among students navigating large institutions. We developed a novel course called Entering Research that creates a learning community to support beginning undergraduate researchers and is designed to parallel the Entering Mentoring course for graduate students, postdocs, and faculty serving as mentors of undergraduate researchers. The course serves as a model that can be easily adapted for use across the science, technology, engineering, and mathematics (STEM) disciplines using a readily available facilitator's manual. Course evaluations and rigorous assessment show that the Entering Research course helps students in many ways, including finding a mentor, understanding their place in a research community, and connecting their research to their course work in the biological and physical sciences. Students in the course reported statistically significant gains in their skills, knowledge, and confidence as researchers compared with a control group of students, who also were engaged in undergraduate research but not enrolled in this course. In addition, the faculty and staff members who served as facilitators of the Entering Research course described their experience as rewarding and one they would recommend to their colleagues.

A Blueprint for Expanding the Mentoring Networks of Undergraduate Women in the Earth and Environmental Sciences

NASA Astrophysics Data System (ADS)

Fischer, E. V.; Adams, A. S.; Barnes, R.; Bloodhart, B.; Burt, M. A.; Clinton, S. M.; Godfrey, E. S.; Pollack, I. B.; Hernandez, P. R.

2017-12-01

Women are substantially underrepresented in the earth and environmental sciences, and that underrepresentation begins at the undergraduate level. In fall 2015, an interdisciplinary team including expertise in the broader geosciences as well as gender and quantitative educational psychology began a project focused on understanding whether mentoring can increase the interest, persistence, and achievement of undergraduate women in the geosciences. The program focuses on mentoring 1st and 2nd year female undergraduate students from five universities in Colorado and Wyoming and four universities in North and South Carolina. The mentoring program includes a weekend workshop, access to professional women across geoscience fields, and both in-person and virtual peer networks. We have found that undergraduate women with large mentoring networks, that include faculty mentors, are more likely to identify as scientists and are more committed to pursuing the geosciences. Our presentation will provide an overview of the major components of our effective and scalable program. We will include a discussion of our first published results in the context of larger social science research on how to foster effective mentoring relationships. We will offer a list of successes and challenges, and we will provide the audience with online links to the materials needed to adopt our model (https://geosciencewomen.org/materials/).

Mentored Research in a Tribal College Setting: The Northern Cheyenne Case

ERIC Educational Resources Information Center

Ward, Carol; Jones, Kacey Widdison; Coles, Ryan; Rich, Loren; Knapp, Stan; Madsen, Robert

2014-01-01

The current study, which focuses on mentored research experiences of freshmen and sophomores at the tribal college of the Northern Cheyenne Nation, responds to the call by Ovink and Veazey (2011) for additional study of effective strategies for providing both mentoring and research experiences for minority undergraduates. We use qualitative…

The South Carolina Collaborative Undergraduate HBCU Student Summer Training Program

DTIC Science & Technology

2013-03-01

Appendix B: Ernest E Just Symposium Student Attendees………... 24 Appendix C: Summaries of Students’ Abstracts……………………. 25 Appendix D: Academic ...College/University Connections, etc.) to identify students’ current locations, contact information, and academic achievements (Year 1, months 10-12...Undergraduate HBCU Student Summer Training Program Students, Mentors, and Research Topics Student Name Academic Institution MUSC Research Mentor

Mentoring Interdisciplinary Undergraduate Students via a Team Effort

PubMed Central

Karsai, Istvan; Knisley, Jeff; Knisley, Debra; Yampolsky, Lev; Godbole, Anant

2011-01-01

We describe how a team approach that we developed as a mentoring strategy can be used to recruit, advance, and guide students to be more interested in the interdisciplinary field of mathematical biology, and lead to success in undergraduate research in this field. Students are introduced to research in their first semester via lab rotations. Their participation in the research of four faculty members—two from biology and two from mathematics—gives them a first-hand overview of research in quantitative biology and also some initial experience in research itself. However, one of the primary goals of the lab rotation experience is that of developing teams of students and faculty that combine mathematics and statistics with biology and the life sciences, teams that subsequently mentor undergraduate research in genuine interdisciplinary environments. Thus, the team concept serves not only as a means of establishing interdisciplinary research, but also as a means of incorporating new students into existing research efforts that will then track those students into meaningful research of their own. We report how the team concept is used to support undergraduate research in mathematical biology and what types of team-building strategies have worked for us. PMID:21885821

The Peer Assisted Teaching Model for Undergraduate Research at a HBCU

ERIC Educational Resources Information Center

Wu, Liyun; Lewis, Marilyn W.

2018-01-01

Despite wide application of research skills in higher education, undergraduate students reported research and computer anxiety, and low association between research and their professional goals. This study aims to assess whether peer-assisted mentoring programs would promote positive changes in undergraduates' attitudes toward research. Using a…

Early Undergraduate Research Experiences Lead to Similar Learning Gains for STEM and Non-STEM Undergraduates

ERIC Educational Resources Information Center

Stanford, Jennifer S.; Rocheleau, Suzanne E.; Smith, Kevin P. W.; Mohan, Jaya

2017-01-01

Undergraduate research is touted as a high-impact educational practice yielding important benefits such as increased retention and notable learning gains. Large-scale studies describing benefits of mentored research programs have focused primarily on outcomes for science, technology, engineering and mathematics (STEM) undergraduates. The Students…

The Development of a Mentoring Program for University Undergraduate Women

ERIC Educational Resources Information Center

Putsche, Laura; Storrs, Debbie; Lewis, Alicia A.; Haylett, Jennifer

2008-01-01

The Women's Center at a university in the United States implemented a mentoring program based on feminist and networking models to improve the educational climate for female undergraduate students. Due to a lack of literature detailing how to develop such a program, an interdisciplinary team of researchers collaborated with the Women's Center to…

Improving Undergraduate Research Experiences With An Intentional Mentoring Program: Lessons Learned Through Assessment of Keck Geology Consortium Programs

NASA Astrophysics Data System (ADS)

Wirth, K. R.; Garver, J. I.; Greer, L.; Pollock, M.; Varga, R. J.; Davidson, C. M.; Frey, H. M.; Hubbard, D. K.; Peck, W. H.; Wobus, R. A.

2015-12-01

The Keck Geology Consortium, with support from the National Science Foundation (REU Program) and ExxonMobil, is a collaborative effort by 18 colleges to improve geoscience education through high-quality research experiences. Since its inception in 1987 more than 1350 undergraduate students and 145 faculty have been involved in 189 yearlong research projects. This non-traditional REU model offers exceptional opportunities for students to address research questions at a deep level, to learn and utilize sophisticated analytical methods, and to engage in authentic collaborative research that culminates in an undergraduate research symposium and published abstracts volume. The large numbers of student and faculty participants in Keck projects also affords a unique opportunity to study the impacts of program design on undergraduate research experiences in the geosciences. Students who participate in Keck projects generally report significant gains in personal and professional dimensions, as well as in clarification of educational and career goals. Survey data from student participants, project directors, and campus advisors identify mentoring as one of the most critical and challenging elements of successful undergraduate research experiences. Additional challenges arise from the distributed nature of Keck projects (i.e., participants, project directors, advisors, and other collaborators are at different institutions) and across the span of yearlong projects. In an endeavor to improve student learning about the nature and process of science, and to make mentoring practices more intentional, the Consortium has developed workshops and materials to support both project directors and campus research advisors (e.g., best practices for mentoring, teaching ethical professional conduct, benchmarks for progress, activities to support students during research process). The Consortium continues to evolve its practices to better support students from underrepresented groups.

An Innovative Near-Peer Mentoring Model for Undergraduate and Secondary Students: STEM Focus

ERIC Educational Resources Information Center

Tenenbaum, Laura S.; Anderson, Margery K.; Jett, Marti; Yourick, Debra L.

2014-01-01

This study examined a novel mentoring model, "near-peer mentorship," that supports the development of mentee and mentor, incorporates established principles of mentoring, and offers unique opportunities to integrate research and teaching in a science, technology, engineering, and mathematics (STEM) internship. Using qualitative methods,…

Mentoring Expectations and Realities: An Analysis of Metaphorical Thinking among Female Undergraduate Proteges and Their Mentors in a University Mentoring Programme

ERIC Educational Resources Information Center

Storrs, Debbie; Putsche, Laura; Taylor, Amy

2008-01-01

This article describes the differences between mentors' and proteges' expectations and realities regarding mentoring relationships and goals. Faculty and senior undergraduate mentors and female undergraduate proteges who participated in a formal, university mentoring programme at the University of Idaho, organised by the institution's Women's…

A Comparison of Internal Dispositions and Career Trajectories after Collaborative versus Apprenticed Research Experiences for Undergraduates

PubMed Central

Frantz, Kyle J.; Demetrikopoulos, Melissa K.; Britner, Shari L.; Carruth, Laura L.; Williams, Brian A.; Pecore, John L.; DeHaan, Robert L.; Goode, Christopher T.

2017-01-01

Undergraduate research experiences confer benefits on students bound for science, technology, engineering, and mathematics (STEM) careers, but the low number of research professionals available to serve as mentors often limits access to research. Within the context of our summer research program (BRAIN), we tested the hypothesis that a team-based collaborative learning model (CLM) produces student outcomes at least as positive as a traditional apprenticeship model (AM). Through stratified, random assignment to conditions, CLM students were designated to work together in a teaching laboratory to conduct research according to a defined curriculum led by several instructors, whereas AM students were paired with mentors in active research groups. We used pre-, mid-, and postprogram surveys to measure internal dispositions reported to predict progress toward STEM careers, such as scientific research self-efficacy, science identity, science anxiety, and commitment to a science career. We are also tracking long-term retention in science-related career paths. For both short- and longer-term outcomes, the two program formats produced similar benefits, supporting our hypothesis that the CLM provides positive outcomes while conserving resources, such as faculty mentors. We discuss this method in comparison with course-based undergraduate research and recommend its expansion to institutional settings in which mentor resources are scarce. PMID:28130268

Research Experiences of Undergraduate Students at a Comprehensive University

ERIC Educational Resources Information Center

Tan, Emily B.

2007-01-01

Narrative inquiry was utilized to allow undergraduate students involved in an undergraduate research course to narrate their experiences in their research undertakings under the guidance of their respective mentors. A total of four focus groups representing the Bachelor of Arts and Letters, Bachelor of Commerce, Bachelor of Secondary Education,…

Teaching Undergraduate Research: The One-Room Schoolhouse Model

ERIC Educational Resources Information Center

Henderson, LaRhee; Buising, Charisse; Wall, Piper

2008-01-01

Undergraduate research in the biochemistry, cell, and molecular biology program at Drake University uses apprenticeship, cooperative-style learning, and peer mentoring in a cross-disciplinary and cross-community educational program. We call it the one-room schoolhouse approach to teaching undergraduate research. This approach is cost effective,…

Undergraduate Research Experience in Ocean/Marine Science (URE-OMS)

DTIC Science & Technology

2003-09-30

The URE-Ocean/Marine Science program supports active research participation by undergraduate students in remote sensing and GIS. The program is based on a model for undergraduate research programs supported by the National Science Foundation . URE project features mentors, research projects, and professional development opportunities. It is the long-term goal

Experiences of Mentors Training Underrepresented Undergraduates in the Research Laboratory

ERIC Educational Resources Information Center

Prunuske, Amy J.; Wilson, Janelle; Walls, Melissa; Clarke, Benjamin

2013-01-01

Successfully recruiting students from underrepresented groups to pursue biomedical science research careers continues to be a challenge. Early exposure to scientific research is often cited as a powerful means to attract research scholars with the research mentor being critical in facilitating the development of an individual's science identity…

A Community Mentoring Model for STEM Undergraduate Research Experiences

ERIC Educational Resources Information Center

Kobulnicky, Henry A.; Dale, Daniel A.

2016-01-01

This article describes a community mentoring model for UREs that avoids some of the common pitfalls of the traditional paradigm while harnessing the power of learning communities to provide young scholars a stimulating collaborative STEM research experience.

Impact of Undergraduate Research on Academic Performance, Educational Planning, and Career Development

ERIC Educational Resources Information Center

Kinkel, Doreen H.; Henke, Scott E.

2006-01-01

An undergraduate research mentoring program (URMP), initiated at Texas A&M University-Kingsville, was developed (1) to aid undergraduate wildlife students in the design, conduct, and analysis of original research projects; and (2) to encourage students to become effective written and oral communicators by preparing a manuscript of their…

Formative Assessment as a Tool to Benefit the Student/Mentor Relationship in the Northern Ecosystem Research for Undergraduates (NERU) Project

NASA Astrophysics Data System (ADS)

Froburg, E.; Varner, R. K.

2016-12-01

Partners in the Northern Ecosystem Research for Undergraduates (NERU) project, funded by the NSF Research Experience for Undergraduates (REU) program, have developed a multi-instrument formative assessment approach aimed at maintaining a responsive relationship between undergraduate participants and their research mentors. All evaluation is conducted independent of the NERU scientific/mentor team, by the Joan and James Leitzel Center for Mathematics, Science, and Engineering Education. The 10-week summer research experience has 3 components. 1) REU fellows spend the first 3-weeks at the University of New Hampshire, where they acquire background knowledge of Earth System Science and biogeochemistry; 2) students spend the following 4-weeks at the Abisko Scientific Research Station in research co-mentored by UNH-based and ANS-based scientists; and 3) fellows return to UNH to complete any additional analytical work, synthesize their results, and prepare their projects for presentation. There are three primary tools that are used formatively, and the results are integrated over multiple time periods. Application and Pre-program Survey: Although these two instruments are primarily components of participant recruitment and the summative program metrics, they also provide a baseline understanding of student preparation and perspectives. Mentor Pairing Survey: This component was added prior to the fourth year of the program, in response to specific trends in participant feedback. The survey is completed by both participants and mentors, and is designed to match research goals, skills, and personalities. Focus Groups: Two focus group sessions are held during the summer research experience—one midway through the 3rd week, just prior to departure for Sweden, and a second session just prior to completion of the 10-week summer program. These focus groups provide immediate feedback on, and opportunity for response to, student concerns in a range of areas. Participants are also encouraged to approach the evaluator individually. Taken as a whole, formative assessment allows the project team to respond immediately to specific participant concerns, and to also make longer-term programmatic changes reflective of trends in survey and focus group responses.

The Undergraduate ALFALFA Team: A Model for Undergraduate Participation and Outreach in Large Research Collaborations

NASA Astrophysics Data System (ADS)

Martin, A. M.; Koopmann, R.; Higdon, S.; Balonek, T. J.; Haynes, M. P.; Giovanelli, R.; Adams, E. A. K.; Kent, B. R.; Stierwalt, S.

2011-09-01

The Arecibo Legacy Fast ALFA (ALFALFA) blind neutral hydrogen survey is an ongoing project that includes an innovative undergraduate outreach component promoting the participation of students and faculty at undergraduate-focused institutions in a large, multi-year research collaboration. The survey, which will ultimately detect ˜30,000 gas-rich galaxies, provides resources and authentic opportunities for undergraduates and faculty, including a high fraction of women and minorities, through the Undergraduate ALFALFA Team (UAT), an NSF-sponsored consortium of 18 participating institutions. The UAT experience features annual workshops at the Arecibo Observatory with hands-on experience for undergrad participants and their faculty mentors. Graduate students on the Cornell ALFALFA Team help plan and facilitate UAT activities and benefit by developing their own skills as mentors, project supervisors, and science communicators. The UAT is developing online lesson plans and activity guides that make use of the ALFALFA online data archive and of innovative learning techniques supported by the findings of astronomy education research.

Independent Study: The Culture of Mentored Undergraduate Research at The College of Wooster (Invited)

NASA Astrophysics Data System (ADS)

Pollock, M.; Judge, S.; Wiles, G. C.; Wilson, M. A.

2013-12-01

The foundation of a Wooster education is the Independent Study (I.S.) program. Established in 1947, the I.S. program is widely recognized as an exemplary undergraduate research experience (AAC&U; US News and World Report; College that Change Lives by Loren Pope). I.S. requires every Wooster student to complete an original research project. This presentation describes the details of the Wooster I.S. and, based on our experiences, gives strategies for a successful mentored undergraduate research program. Overall, the I.S. process resembles a graduate research project. Students typically begin their work in the spring of their junior year when they review the literature, learn techniques, and write a proposal for their Senior I.S. research. Many students conduct field and lab work over the following summer, although this is not a requirement of the program. In their senior year, students work one-on-one with faculty members and sometimes in small (~4 person) research groups to drive their projects forward with an increasing sense of independence. I.S. culminates in a written thesis and oral defense. Most of our students present their work at national meetings and many projects are published in peer-reviewed journals. The success of the I.S. program is largely the result of two key components: (1) the integration of undergraduate research into the curriculum, and (2) the focus on student mentoring. We have thoughtfully structured our courses so that, as students move toward I.S., they progress from concrete to abstract concepts, and from simple to complex skills. The College also recognizes the value of I.S by assigning it credit; Students earn a full course credit for each semester of I.S. (3 courses total) and there is some credit in the faculty teaching load for I.S. advising. Advisors are really mentors who are invested in their students' academic and scholarly success. As mentors, we emphasize collaboration, provide guidance and support, and hold students accountable. It is the combination of professional and personal mentoring that makes the I.S. experience a significant event in the students' lives.

Impact of the INBRE summer student mentored research program on undergraduate students in Arkansas.

PubMed

McSweeney, Jean C; Hudson, Teresa J; Prince, Latrina; Beneš, Helen; Tackett, Alan J; Miller Robinson, Caroline; Koeppe, Roger; Cornett, Lawrence E

2018-03-01

The Institutional Development Award (IDeA) program, housed within the National Institute for General Medical Sciences, administers the Networks of Biomedical Research Excellence (INBRE) as a strategic mission to broaden the geographic distribution of National Institutes of Health (NIH) funding within the United States. Undergraduate summer student mentored research programs (SSMRP) are a common feature of INBRE programs and are designed to increase undergraduate student interest in research careers in the biomedical sciences. Little information is available about student perspectives on how these programs impact their choices relative to education and careers. Therefore, we conducted qualitative interviews with 20 participants from the Arkansas INBRE SSMRP in the years 2002-2012. Each telephone interview lasted 30-45 min. An interview guide with a broad "grand tour" question was used to elicit student perspectives on SSMRP participation. Interviews were digitally recorded, then transcribed verbatim, and the transcript checked for accuracy. Content analysis and constant comparison were used to identify nine themes that were grouped into three temporal categories: before, during, and after the SSMRP experience. Students viewed the experience as positive and felt it impacted their career choices. They emphasized the value of mentoring in the program, and some reported maintaining a relationship with the mentor after the summer experience ended. Students also valued learning new laboratory and presentation skills and felt their research experience was enhanced by meeting students and scientists with a wide range of career interests. These data suggest that the Arkansas INBRE and the NIH IDeA program are successfully meeting the goal of increasing interest in research among undergraduates.

Growing the pipeline of diverse HIV investigators: The impact of mentored research experiences to engage underrepresented minority students

PubMed Central

Fuchs, Jonathan; Kouyate, Aminta; Kroboth, Liz; McFarland, Willi

2016-01-01

Structured, mentored research programs for high school and undergraduate students from underrepresented minority (URM) backgrounds are needed to increase the diversity of our nation’s biomedical research workforce. In particular, a robust pipeline of investigators from the communities disproportionately affected by the HIV epidemic is needed not only for fairness and equity but for insights and innovations to address persistent racial and ethnic disparities in new infections. We created the Summer HIV/AIDS Research Program (SHARP) at the San Francisco Department of Public Health for URM undergraduates as a 12-week program of hands-on research experience, one-on-one mentoring by a senior HIV investigator, didactic seminars for content and research methods, and networking opportunities. The first four cohorts (2012–2015) of SHARP gained research skills, built confidence in their abilities and self-identified as scientists. In addition, the majority of program alumni is employed in research positions and has been admitted to or is pursuing graduate degree programs in fields related to HIV prevention. While we await empirical studies of specific mentoring strategies at early educational stages, programs that engage faculty who are sensitive to the unique challenges facing diverse students and who draw lessons from established mentoring frameworks can help build an inclusive generation of HIV researchers. PMID:27066986

Growing the Pipeline of Diverse HIV Investigators: The Impact of Mentored Research Experiences to Engage Underrepresented Minority Students.

PubMed

Fuchs, Jonathan; Kouyate, Aminta; Kroboth, Liz; McFarland, Willi

2016-09-01

Structured, mentored research programs for high school and undergraduate students from underrepresented minority (URM) backgrounds are needed to increase the diversity of our nation's biomedical research workforce. In particular, a robust pipeline of investigators from the communities disproportionately affected by the HIV epidemic is needed not only for fairness and equity but for insights and innovations to address persistent racial and ethnic disparities in new infections. We created the Summer HIV/AIDS Research Program (SHARP) at the San Francisco Department of Public Health for URM undergraduates as a 12-week program of hands-on research experience, one-on-one mentoring by a senior HIV investigator, didactic seminars for content and research methods, and networking opportunities. The first four cohorts (2012-2015) of SHARP gained research skills, built confidence in their abilities and self-identified as scientists. In addition, the majority of program alumni is employed in research positions and has been admitted to or is pursuing graduate degree programs in fields related to HIV prevention. While we await empirical studies of specific mentoring strategies at early educational stages, programs that engage faculty who are sensitive to the unique challenges facing diverse students and who draw lessons from established mentoring frameworks can help build an inclusive generation of HIV researchers.

2012 Summer Research Experiences for Undergraduates at Pisgah Astronomical Research Institute

NASA Astrophysics Data System (ADS)

Castelaz, Michael W.; Cline, J. D.; Whitworth, C.; Clavier, D.; Owen, L.

2013-01-01

Pisgah Astronomical Research Institute (PARI) offers research experiences for undergraduates (REU). PARI receives support for the internships from the NC Space Grant Consortium, NSF awards, private donations, and industry partner funding. The PARI REU program began in 2001 with 4 students and has averaged 6 students per year over the past 11 years. This year PARI hosted 8 funded REU students. Mentors for the interns include PARI’s Science, Education, and Information Technology staff and visiting faculty who are members of the PARI Research Faculty Affiliate program. Students work with mentors on radio and optical astronomy research, electrical engineering for robotic control of instruments, software development for instrument control and software for citizen science projects, and science education by developing curricula and multimedia and teaching high school students in summer programs at PARI. At the end of the summer interns write a paper about their research which is published in the annually published PARI Summer Student Proceedings. Several of the students have presented their results at AAS Meetings. We will present a summary of specific research conducted by the students with their mentors and the logistics for hosting the PARI undergraduate internship program.

Mentorship: The Education-Research Continuum

DOE Office of Scientific and Technical Information (OSTI.GOV)

Correll, D

2008-05-29

Mentoring of science students stems naturally from the intertwined link between science education and science research. In fact, the mentoring relationship between a student and a scientist may be thought of analogically as a type of double helix forming the 'DNA' that defines the blueprint for the next generation of scientists. Although this analogy would not meet the rigorous tests commonly used for exploring the natural laws of the universe, the image depicted does capture how creating and sustaining the future science workforce benefits greatly from the continuum between education and research. The path science students pursue from their educationmore » careers to their research careers often involves training under an experienced and trusted advisor, i.e., a mentor. For many undergraduate science students, a summer research internship at a DOE National Laboratory is one of the many steps they will take in their Education-Research Continuum. Scientists who choose to be mentors share a commitment for both science education and science research. This commitment is especially evident within the research staff found throughout the Department of Energy's National Laboratories. Research-based internship opportunities within science, technology, engineering and mathematics (STEM) exist at most, if not all, of the Laboratories. Such opportunities for students are helping to create the next generation of highly trained professionals devoted to the task of keeping America at the forefront of scientific innovation. 'The Journal of Undergraduate Research' (JUR) provides undergraduate interns the opportunity to publish their scientific innovation and to share their passion for education and research with fellow students and scientists. The theme of this issue of the JUR (Vol. 8, 2008) is 'Science for All'. Almost 20 years have passed since the American Association for the Advancement of Science published its 1989 report, 'Science for All Americans-Project 2061'. The first recommendation for learning science stated: 'The Nature of Science includes the scientific world view, scientific methods of inquiry, and the nature of the scientific enterprise'. All three elements of the 'Nature of Science' are pivotal aspects of a research internship under the mentorship of an experienced and trusted advisor. In addition to internships for undergraduates, an important ingredient in realizing 'Science for All' is collaboration involving educators and scientists as they engage science students and the public at large to promote science literacy and to develop the next generation of STEM professionals. The DOE National Laboratories, individually and collectively, form an ideal nexus for nurturing these complementary collaborations. My 'Science for All' experiences at Lawrence Livermore National Laboratory (LLNL) over the last 30 years have spanned pre-college, college, and postdoctoral activities, including mentoring of undergraduate students. Early in my mentoring career, I became aware that undergraduates in particular needed help in answering the question 'what path (or paths) will lead to a challenging and rewarding STEM career'? For many, a successful path included a research internship that would result in expanded skills and training in addition to those received from their academic education. These internship skills were helpful whether the student's next Education-Research Continuum decision was graduate school or STEM employment. My experience at LLNL mirrors that of my colleagues at other DOE National Laboratories--internships with a dedicated mentor provide undergraduates with a unique set of skills that can underpin their future options and serve to improve the number, quality, and successful outcomes of students who enter STEM careers. 'Science for All' can also be found in the goals of 'The America COMPETES Act', which call for renewed efforts to increase investments in scientific research and development, strengthen education, and encourage entrepreneurship. Mentoring is an important ingredient in reaching these goals because the success of future endeavors will require a diverse workforce of scientists, technicians, engineers, mathematicians, and STEM educators. A small, but not insignificant, metric of how well the nation is doing to create the next STEM generation can be measured by the abstracts and articles published in the 'Journal of Undergraduate Research'. At the 'heart' of the JUR is the professional commitment of the DOE National Laboratory workforce to mentor the next STEM generation and to realize 'Science for All'.« less

Efforts at Broadening Participation in the Sciences: An Examination of the Mentoring Experiences of Students from Underrepresented Groups

PubMed Central

Prunuske, Amy; Wilson, Janelle; Walls, Melissa; Marrin, Hannah; Clarke, Benjamin

2016-01-01

With the primary objective of attracting and retaining students from underrepresented backgrounds in the sciences, evaluation of one institution’s program has been ongoing over the past three years. Interviews with mentors in the program followed by focus groups conducted with mentees reveal key factors that shape undergraduate students’ research experiences. In the present study, attention is given to data gathered from 15 mentees in the program, the majority of whom have enrolled in community colleges, represent low socioeconomic backgrounds, and are nontraditional students. The results from focus groups with the mentees provide information on the benefits of participating in the program, characteristics of good mentors, challenges to the mentoring relationship, and the effects of underrepresented status on pursuit of advanced degrees. Comparisons of mentees’ comments about the mentoring relationship with mentors’ comments reveal similar themes and patterns while also demonstrating interesting differences. The qualitative findings are also juxtaposed with participants’ responses on the Survey of Undergraduate Research Experiences. Taken together, the data enhance our understanding of the experiences of underrepresented students in faculty-mentored research programs and highlight challenges and perspectives of students who are transferring to the university from a community college. PMID:27521233

Mentoring portfolio use in undergraduate and postgraduate medical education.

PubMed

Dekker, Hanke; Driessen, Erik; Ter Braak, Edith; Scheele, Fedde; Slaets, Joris; Van Der Molen, Thys; Cohen-Schotanus, Janke

2009-10-01

Mentoring is widely acknowledged as being crucial for portfolio learning. The aim of this study is to examine how mentoring portfolio use has been implemented in undergraduate and postgraduate settings. The results of interviews with six key persons involved in setting up portfolio use in medical education programmes were used to develop a questionnaire, which was administered to 30 coordinators of undergraduate and postgraduate portfolio programmes in the Netherlands and Flanders. The interviews yielded four main aspects of the portfolio mentoring process--educational aims, individual meetings, small group sessions and mentor characteristics. Based on the questionnaire data, 16 undergraduate and 14 postgraduate programmes were described. Providing feedback and stimulating reflection were the main objectives of the mentoring process. Individual meetings were the favourite method for mentoring (26 programmes). Small group sessions to support the use of portfolios were held in 16 programmes, mostly in the undergraduate setting. In general, portfolio mentors were clinically qualified academic staff trained for their mentoring tasks. This study provides a variety of practical insights into implementing mentoring processes in portfolio programmes.

An Exploration of the Characteristics of Effective Undergraduate Peer-Mentoring Relationships

ERIC Educational Resources Information Center

Douglass, April G.; Smith, Dennie L.; Smith, Lana J.

2013-01-01

In this article, we explored the effectiveness of peer mentoring of undergraduate education students enrolled in core curriculum, writing-intensive courses. The context for our study was the use of peer mentors in undergraduate education writing-intensive courses. Peer mentors who had previously taken the courses were selected and trained as…

The Effectiveness of the AAS REU Program

NASA Astrophysics Data System (ADS)

Hemenway, M. K.; Boyce, P. B.; Milkey, R. W.

1996-05-01

In an attempt to address the particular needs of astronomy faculty and undergraduate students, in 1991 the Education Office of the American Astronomical Society approached the National Science Foundation with a unique proposal for funding through the Research Experiences for Undergraduates program. The goals of the AAS program were to "slow the hemorrhage of students out of science...", extend the REU program to non-NSF-funded scientists, to reach under-represented women and minority students particularly in small educational institutions, and to encourage research scientists there to mentor students. As this grant has now expired, the AAS has surveyed the 44 mentors and their students to assess the program's effect on the mentor and the mentor's career; the educational institution; and the student's education and career choices. More than half the mentors responded by the abstract deadline. The program clearly had an effect upon the individuals involved. The greatest effect (in 85% of the cases) was to develop more interest in the mentor's research project both among the students and among the mentor's faculty colleagues. The mentors rated the grant to be a medium or strong factor in their student's decision to pursue graduate study, which 90% of them did. All but one of the AAS-REU students attended an AAS meeting and 3/4 of those gave a paper on their project research. Over 90% of the mentors felt that the research experience strongly promoted a greater interest in science, a greater understanding of science and a desire to continue in science. According to the mentors, this was a very positive and beneficial program for the students as well as for themselves.

AGU Activities to Promote Undergraduate Research

NASA Astrophysics Data System (ADS)

Grove, K.; Johnson, R.; Giesler, J.

2001-05-01

A primary goal of the AGU Committee on Education and Human Resources (CEHR) is to significantly increase the participation of undergraduate students at AGU meetings. Involving students in scientific meetings at this level of their education helps them to better prepare for graduate school and for a career in the geophysical sciences. Ongoing CEHR activities to promote undergraduate participation include: (1) sponsoring technical sessions to showcase undergraduate research; (2) sponsoring sessions about careers and other topics of special interest to students; (3) sponsoring workshops to inform faculty about doing research with undergraduates; (4) sponsoring meeting events to partner graduate student mentors with first-time undergraduate attendees; (5) working with sections to create situations where undergraduates and section scientists can interact; (6) creating a guide for first-time meeting attendees; (7) sponsoring an Academic Recruiting Forum at meetings to connect undergraduates with geophysical graduate programs; (8) running a Career Center at meetings to connect students and employers; (9) raising funds for more travel grants to provide more student support to attend meetings; (10) developing a listserve to inform AGU members about opportunities to do research with undergraduates and to involve more members in mentoring activities; and (11) collecting data, such as career outcomes and demographic characteristics of recent Ph.D. recipients, that are of interest to students.

Developing Collaboration Skills in Team Undergraduate Research Experiences

ERIC Educational Resources Information Center

Sturner, Kelly K.; Bishop, Pamela; Lenhart, Suzanne M.

2017-01-01

Interdisciplinary undergraduate research experiences often require students to work in teams with other students and researchers from different disciplines, creating a need for development of new skills in interdisciplinary collaboration. In this paper, we describe our unique efforts to mentor participants in developing these skills during our…

Integrating Opportunities: Applied Interdisciplinary Research in Undergraduate Geography and Geology Education

ERIC Educational Resources Information Center

Viertel, David C.; Burns, Diane M.

2012-01-01

Unique integrative learning approaches represent a fundamental opportunity for undergraduate students and faculty alike to combine interdisciplinary methods with applied spatial research. Geography and geoscience-related disciplines are particularly well-suited to adapt multiple methods within a holistic and reflective mentored research paradigm.…

Teaching and Research at Undergraduate Institutions

NASA Astrophysics Data System (ADS)

Garg, Shila

2006-03-01

My own career path has been non-traditional and I ended up at a primarily undergraduate institution by pure accident. However, teaching at a small college has been extremely rewarding to me, since I get to know and interact with my students, have an opportunity to work with them one-on-one and promote their intellectual growth and sense of social responsibility. One of the growing trends at undergraduate institutions in the past decade has been the crucial role of undergraduate research as part of the teaching process and the training of future scientists. There are several liberal arts institutions that expect research-active Faculty who can mentor undergraduate research activities. Often faculty members at these institutions consider their roles as teacher-scholars with no boundary between these two primary activities. A researcher who is in touch with the developments in his/her own field and contributes to new knowledge in the field is likely to be a more exciting teacher in the classroom and share the excitement of discovery with the students. At undergraduate institutions, there is generally very good support available for faculty development projects in both teaching and research. Often, there is a generous research leave program as well. For those who like advising and mentoring undergraduates and a teaching and learning centered paradigm, I will recommend a career at an undergraduate institution. In my presentation, I will talk about how one can prepare for such a career.

Influences on Faculty Willingness to Mentor Undergraduate Students from Another University as Part of an Interinstitutional Research Training Program

ERIC Educational Resources Information Center

Morales, Danielle X.; Grineski, Sara E.; Collins, Timothy W.

2016-01-01

In 2014, the National Institutes of Health invested $31 million in 10 primary institutions across the United States through the Building Undergraduate Infrastructure Leading to Diversity (BUILD) program; one requirement of BUILD is sending undergraduate trainees from those primary institutions to partner institutions for research experiences.…

The Summer Undergraduate Research Internship Program at the Pisgah Astronomical Research Institute

NASA Astrophysics Data System (ADS)

Cline, J. Donald; Castelaz, M.; Whitworth, C.; Clavier, D.; Owen, L.; Barker, T.

2012-01-01

Pisgah Astronomical Research Institute (PARI) offers summer undergraduate research internships. PARI has received support for the internships from the NC Space Grant Consortium, NSF awards for public science education, private donations, private foundations, and through a collaboration with the Pisgah Astronomical Research and Education Center of the University of North Carolina - Asheville. The internship program began in 2001 with 4 students. This year 7 funded students participated in 2011. Mentors for the interns include PARI's Science, Education, and Information Technology Directors and visiting faculty who are members of the PARI Research Affiliate Faculty program. Students work with mentors on radio and optical astronomy research, electrical engineering for robotic control of instruments, software development for instrument control and software for citizen science projects, and science education by developing curricula and multimedia and teaching high school students in summer programs at PARI. At the end of the summer interns write a paper about their research which is published in the PARI Summer Student Proceedings. Several of the students have presented their results at AAS Meetings. We will present a summary of specific research conducted by the students with their mentors, the logistics for hosting the PARI undergraduate internship program, and plans for growth based on the impact of an NSF supported renovation to the Research Building on the PARI campus.

The Summer Undergraduate Research Internship Program at the Pisgah Astronomical Research Institute

NASA Astrophysics Data System (ADS)

Castelaz, Michael W.; Cline, J.; Whitworth, C.; Clavier, D.

2011-01-01

Pisgah Astronomical Research Institute (PARI) offers summer undergraduate research internships. PARI has received support for the internships from the NC Space Grant Consortium, NSF awards for public science education, private donations, private foundations, and through a collaboration with the Pisgah Astronomical Research and Education Center of the University of North Carolina - Asheville. The internship program began in 2001 with 4 students. This year 9 funded students participated in 2010. Mentors for the interns include PARI's Directors of Science, Education, and Information Technology and visiting faculty who are members of the PARI Research Affiliate Faculty program. Students work with mentors on radio and optical astronomy research, electrical engineering for robotic control of instruments, software development for instrument control and applets for citizen science projects, and science education by developing curricula and multimedia and teaching high school students in summer programs at PARI. At the end of the summer interns write a paper about their research which is published in the PARI Summer Student Proceedings. Several of the students have presented their results at AAS Meetings. We will present a summary of specific research conducted by the students with their mentors, the logistics for hosting the PARI undergraduate internship program, and plans for growth based on the impact of an NSF supported renovation to the Research Building on the PARI campus.

Mentoring Undergraduate University Women Survivors of Childhood Abuse and Intimate Partner Violence

ERIC Educational Resources Information Center

Reilly, Rosemary C.; D'Amico, Miranda

2011-01-01

This inquiry describes the role of mentoring for undergraduate women survivors of trauma. It employed a comparative case approach. Interviews elicited stories from participants reflecting the role mentors have played in their life course and educational experiences. Four major themes emerged: Fantasy mentors, mentor as mirror, mentor as nurturer…

Undergraduate Student Peer Mentoring in a Multi-Faculty, Multi-Campus University Context

ERIC Educational Resources Information Center

Townsend, Robert A.; Delves, Melinda; Kidd, Tracy; Figg, Bev

2011-01-01

This article explores research that utilised a mapping strategy to investigate the elements of peer mentoring and peer tutoring programs across a multi-campus Australian university. Peer mentoring, peer tutoring and peer learning activities at the multi-campus university are occurring in a manner that may be considered ad-hoc which does not…

A Preliminary Theoretical Analysis of a Research Experience for Undergraduates Community Model

ERIC Educational Resources Information Center

Castillo-Garsow, Carlos; Castillo-Chavez, Carlos; Woodley, Sherry

2013-01-01

The Mathematical and Theoretical Biology Institute (MTBI) is a successful summer research experience for undergraduates, with a strong record of mentoring Ph.D. graduates, particularly, underrepresented minority students. However, the MTBI program was designed for education in research, not for research in education, and the mechanisms of the…

Mentoring for Inclusion: The Impact of Mentoring on Undergraduate Researchers in the Sciences

PubMed Central

Haeger, Heather; Fresquez, Carla

2016-01-01

Increasing inclusion of underrepresented minority and first-generation students in mentored research experiences both increases diversity in the life sciences research community and prepares students for successful careers in these fields. However, analyses of the impact of mentoring approaches on specific student gains are limited. This study addresses the impact of mentoring strategies within research experiences on broadening access to the life sciences by examining both how these experiences impacted student success and how the quality of mentorship affected the development of research and academic skills for a diverse population of students at a public, minority-serving institution. Institutional data on student grades and graduation rates (n = 348) along with postresearch experience surveys (n = 138) found that students mentored in research had significantly higher cumulative grade point averages and similar graduation rates as a matched set of peers. Examination of the relationships between student-reported gains and mentoring strategies demonstrated that socioemotional and culturally relevant mentoring impacted student development during mentored research experiences. Additionally, extended engagement in research yielded significantly higher development of research-related skills and level of independence in research. Recommendations are provided for using mentoring to support traditionally underrepresented students in the sciences. PMID:27543635

Confessions of a fungal systematist

Treesearch

D. Jean Lodge

2016-01-01

1. The Long-Term Ecological Research (LTER) program has not influenced my basic approach to science. 2. The LTER program has reinforced my approach to mentoring, and it has increased my opportunities to mentor students through the LTER-associated Research Experiences for Undergraduates Program. 3. LTER program has greatly enriched my collaborative network and expanded...

Transforming the Undergraduate Research Experience through Sustained Mentoring: Creating a Strong Support Network and a Collaborative Learning Environment

ERIC Educational Resources Information Center

Camacho, Erika T.; Holmes, Raquell M.; Wirkus, Stephen A.

2015-01-01

This chapter describes how sustained mentoring together with rigorous collaborative learning and community building contributed to successful mathematical research and individual growth in the Applied Mathematical Sciences Summer Institute (AMSSI), a program that focused on women, underrepresented minorities, and individuals from small teaching…

Collaboration and Community Building in Summer Undergraduate Research Programs in the School of Earth Sciences at Stanford University

NASA Astrophysics Data System (ADS)

Nevle, R. J.; Watson Nelson, T.; Harris, J. M.; Klemperer, S. L.

2012-12-01

In 2012, the School of Earth Sciences (SES) at Stanford University sponsored two summer undergraduate research programs. Here we describe these programs and efforts to build a cohesive research cohort among the programs' diverse participants. The two programs, the Stanford School of Earth Sciences Undergraduate Research (SESUR) Program and Stanford School of Earth Sciences Summer Undergraduate Research in Geoscience and Engineering (SURGE) Program, serve different undergraduate populations and have somewhat different objectives, but both provide students with opportunities to work on strongly mentored yet individualized research projects. In addition to research, enrichment activities co-sponsored by both programs support the development of community within the combined SES summer undergraduate research cohort. Over the course of 6 to 9 months, the SESUR Program engages Stanford undergraduates, primarily rising sophomores and juniors, with opportunities to deeply explore Earth sciences research while learning about diverse areas of inquiry within SES. Now in its eleventh year, the SESUR experience incorporates the breadth of the scientific endeavor: finding an advisor, proposal writing, obtaining funding, conducting research, and presenting results. Goals of the SESUR program include (1) providing a challenging and rewarding research experience for undergraduates who wish to explore the Earth sciences; (2) fostering interdisciplinary study in the Earth sciences among the undergraduate population; and (3) encouraging students to major or minor in the Earth sciences and/or to complete advanced undergraduate research in one of the departments or programs within SES. The SURGE Program, now in its second year, draws high performing students, primarily rising juniors and seniors, from 14 colleges and universities nationwide, including Stanford. Seventy percent of SURGE students are from racial/ethnic backgrounds underrepresented in STEM fields, and approximately one-third are the first in their families to attend college. For eight weeks, SURGE scholars conduct independent research with the guidance of faculty, research group mentors, and program assistants. The primary objectives of the SURGE program are to (1) provide undergraduates with a research experience in SES; (2) prepare undergraduates for the process of applying to graduate school; (3) introduce undergraduates to career opportunities in the geosciences and engineering; and (4) increase diversity in SES graduate programs. Independent research, network building, and intense mentoring culminate in a final oral and poster symposium. SESUR and SURGE scholars jointly participate in enrichment activities including faculty research seminars; career, graduate school, and software training workshops; GRE preparation classes; and geoscience-oriented field trips. Interaction among our students takes place through both research and enrichment activities, creating a critical mass of undergraduate scholars and promoting community development. Pre- and post-program surveys indicate that the overall goals of both programs are being achieved.

Undergraduate Medical Students Using Facebook as a Peer-Mentoring Platform: A Mixed-Methods Study.

PubMed

Pinilla, Severin; Nicolai, Leo; Gradel, Maximilian; Pander, Tanja; Fischer, Martin R; von der Borch, Philip; Dimitriadis, Konstantinos

2015-10-27

Peer mentoring is a powerful pedagogical approach for supporting undergraduate medical students in their learning environment. However, it remains unclear what exactly peer mentoring is and whether and how undergraduate medical students use social media for peer-mentoring activities. We aimed at describing and exploring the Facebook use of undergraduate medical students during their first 2 years at a German medical school. The data should help medical educators to effectively integrate social media in formal mentoring programs for medical students. We developed a coding scheme for peer mentoring and conducted a mixed-methods study in order to explore Facebook groups of undergraduate medical students from a peer-mentoring perspective. All major peer-mentoring categories were identified in Facebook groups of medical students. The relevance of these Facebook groups was confirmed through triangulation with focus groups and descriptive statistics. Medical students made extensive use of Facebook and wrote a total of 11,853 posts and comments in the respective Facebook groups (n=2362 total group members). Posting peaks were identified at the beginning of semesters and before exam periods, reflecting the formal curriculum milestones. Peer mentoring is present in Facebook groups formed by undergraduate medical students who extensively use these groups to seek advice from peers on study-related issues and, in particular, exam preparation. These groups also seem to be effective in supporting responsive and large-scale peer-mentoring structures; formal mentoring programs might benefit from integrating social media into their activity portfolio.

A Comparison of Internal Dispositions and Career Trajectories after Collaborative versus Apprenticed Research Experiences for Undergraduates

ERIC Educational Resources Information Center

Frantz, Kyle J.; Demetrikopoulos, Melissa K.; Britner, Shari L.; Carruth, Laura L.; Williams, Brian A.; Pecore, John L.; DeHaan, Robert L.; Goode, Christopher T.

2017-01-01

Undergraduate research experiences confer benefits on students bound for science, technology, engineering, and mathematics (STEM) careers, but the low number of research professionals available to serve as mentors often limits access to research. Within the context of our summer research program (BRAIN), we tested the hypothesis that a team-based…

Mentoring undergraduate students in neuroscience research: a model system at baldwin-wallace college.

PubMed

Mickley, G Andrew; Kenmuir, Cynthia; Remmers-Roeber, Dawn

2003-01-01

As neuroscience research and discovery undergoes phenomenal growth worldwide, undergraduate students are seeking complete laboratory experiences that go beyond the classic classroom curriculum and provide mentoring in all aspects of science. Stock, in-class, laboratory experiences with known outcomes are less desirable than discovery-based projects in which students become full partners with faculty in the design, conduct and documentation of experiments that find their way into the peer-reviewed literature. The challenges of providing such experiences in the context of a primarily undergraduate institution (PUI) can be daunting. Faculty teaching loads are high, and student time is spread over a variety of courses and co-curricular activities. In this context, undergraduates are often reluctant, or ill equipped, to take individual initiative to generate and perform empirical studies. They are more likely to become involved in a sustained, faculty-initiated research program. This paper describes such a program at Baldwin-Wallace College. Students frequently start their laboratory activities in the freshman or sophomore year and enter into a system of faculty and peer mentoring that leads them to experience all aspects of the research enterprise. Students begin with learning basic laboratory tasks and may eventually achieve the status of "Senior Laboratory Associate" (SLA). SLAs become involved in laboratory management, training of less-experienced students, manuscript preparation, and grant proposal writing. The system described here provides a structured, but encouraging, community in which talented undergraduates can develop and mature as they are mentored in the context of a modern neuroscience laboratory. Retention is very good - as most students continue their work in the laboratory for 2-3 years. Student self-reports regarding their growth and satisfaction with the experiences in the laboratory have been excellent and our neuroscience students' acceptance rate in graduate, medical and veterinary schools has been well above the College average. The system also fosters faculty productivity and satisfaction in the context of the typical challenges of conducting research at a PUI.

Research and Teaching: Development of Undergraduate Teaching Assistants as Effective Instructors in STEM Courses

ERIC Educational Resources Information Center

Philipp, Stephanie B.; Tretter, Thomas; Rich, Christine V.

2016-01-01

This study examined the development of peer mentoring skills and deepening of content knowledge by trained and supported undergraduate teaching assistants working with students in entry-level STEM courses across nine departments at a large research-intensive U.S. university.

Promoting professional identity, motivation, and persistence: Benefits of an informal mentoring program for female undergraduate students

PubMed Central

Bloodhart, Brittany; Barnes, Rebecca T.; Adams, Amanda S.; Clinton, Sandra M.; Pollack, Ilana; Godfrey, Elaine; Burt, Melissa; Fischer, Emily V.

2017-01-01

Women are underrepresented in a number of science, technology, engineering, and mathematics (STEM) disciplines. Limited diversity in the development of the STEM workforce has negative implications for scientific innovation, creativity, and social relevance. The current study reports the first-year results of the PROmoting Geoscience Research, Education, and SuccesS (PROGRESS) program, a novel theory-driven informal mentoring program aimed at supporting first- and second-year female STEM majors. Using a prospective, longitudinal, multi-site (i.e., 7 universities in Colorado/Wyoming Front Range & Carolinas), propensity score matched design, we compare mentoring and persistence outcomes for women in and out of PROGRESS (N = 116). Women in PROGRESS attended an off-site weekend workshop and gained access to a network of volunteer female scientific mentors from on- and off-campus (i.e., university faculty, graduate students, and outside scientific professionals). The results indicate that women in PROGRESS had larger networks of developmental mentoring relationships and were more likely to be mentored by faculty members and peers than matched controls. Mentoring support from a faculty member benefited early-undergraduate women by strengthening their scientific identity and their interest in earth and environmental science career pathways. Further, support from a faculty mentor had a positive indirect impact on women’s scientific persistence intentions, through strengthened scientific identity development. These results imply that first- and second- year undergraduate women’s mentoring support networks can be enhanced through provision of protégé training and access to more senior women in the sciences willing to provide mentoring support. PMID:29091969

Promoting professional identity, motivation, and persistence: Benefits of an informal mentoring program for female undergraduate students.

PubMed

Hernandez, Paul R; Bloodhart, Brittany; Barnes, Rebecca T; Adams, Amanda S; Clinton, Sandra M; Pollack, Ilana; Godfrey, Elaine; Burt, Melissa; Fischer, Emily V

2017-01-01

Women are underrepresented in a number of science, technology, engineering, and mathematics (STEM) disciplines. Limited diversity in the development of the STEM workforce has negative implications for scientific innovation, creativity, and social relevance. The current study reports the first-year results of the PROmoting Geoscience Research, Education, and SuccesS (PROGRESS) program, a novel theory-driven informal mentoring program aimed at supporting first- and second-year female STEM majors. Using a prospective, longitudinal, multi-site (i.e., 7 universities in Colorado/Wyoming Front Range & Carolinas), propensity score matched design, we compare mentoring and persistence outcomes for women in and out of PROGRESS (N = 116). Women in PROGRESS attended an off-site weekend workshop and gained access to a network of volunteer female scientific mentors from on- and off-campus (i.e., university faculty, graduate students, and outside scientific professionals). The results indicate that women in PROGRESS had larger networks of developmental mentoring relationships and were more likely to be mentored by faculty members and peers than matched controls. Mentoring support from a faculty member benefited early-undergraduate women by strengthening their scientific identity and their interest in earth and environmental science career pathways. Further, support from a faculty mentor had a positive indirect impact on women's scientific persistence intentions, through strengthened scientific identity development. These results imply that first- and second- year undergraduate women's mentoring support networks can be enhanced through provision of protégé training and access to more senior women in the sciences willing to provide mentoring support.

Mentoring Undergraduate Interdisciplinary Mathematics Research Students: Junior Faculty Experiences

ERIC Educational Resources Information Center

Gevertz, Jana L.; Kim, Peter S.; Wares, Joanna R.

2017-01-01

To be successful, junior faculty must properly manage their time in the face of expanding responsibilities. One such responsibility is supervising undergraduate research projects. Student research projects (either single or multi-student) can be undertaken as a full-time summer experience, or as a part-time academic year commitment. With many…

Strategies for involving undergraduates in mentored research (Invited)

NASA Astrophysics Data System (ADS)

Marin-Spiotta, E.

2013-12-01

Early engagement in research can transform the undergraduate experience and has a positive effect on minority student recruitment to graduate school. Multiple strategies used to involve undergraduates in research at a large R1 university are presented. During my first four years as an assistant professor, my lab has hosted 14 undergraduates, 9 of them women and 4 of them Hispanic. Institutional support has been critical for undergraduate student involvement. UW supports a research program for incoming underrepresented students. An advantage of this program is very early research participation, with the opportunity for long-term training. One disadvantage is that many first year students have not yet identified their interests. The Biology major also requires students to complete an independent project, which culminates in a research symposium. Competitive research fellowships and grants are available for students to conduct work under faculty mentorship. We have been successful at keeping students on even when their majors are very different from our research discipline, mainly by providing flexibility and a welcoming lab environment. This mentoring culture is strongly fostered by graduate student interest and involvement with all undergraduates as well as active mentor training. By offering multiple pathways for involvement, we can accommodate students' changing schedules and priorities as well as changing lab needs. Students can volunteer, receive course credit, conduct an independent project or honors thesis, contribute to an existing project, do lab work or write a literature review, work with one mentor or on multiple projects. We often provide employment over the summer and subsequent semesters for continuing students. Some will increase their commitment over time and work more closely with me. Others reduce down to a few hours a week as they gain experience elsewhere. Most students stay multiple semesters and multiple years because they 'enjoy being in the lab.' All undergrads are encouraged to participate in weekly lab meetings, are added to our email list, portrayed on our website, and included in social and professional activities, including meetings with visiting researchers and other campus labs. Beyond receiving research skills training and professional development, students gain a social community beyond their dorms and classes as well as peer and senior mentors in the lab. In a campus with 30,000 students, building a personal relationship with senior researchers and faculty provides an invaluable benefit for students' careers. We have hosted three Puerto Rican students to participate in an intensive summer research program, which provides professional preparation for graduate school. Much of our research is based in Puerto Rico, so we meet our students there and take them to our sites, which provides them with training in field skills as well as a context for their summer lab work at UW. We have learned the importance of setting out clear expectations at the beginning of each project. While getting students excited about our own research field is personally satisfying, we are learning to be more flexible in our measures of student success. Students can enjoy doing research for research sake while others enjoy it as another job. It is important that they all receive mentoring and learn about opportunities appropriate to their own career choices.

Connecting Self-Efficacy and Views about the Nature of Science in Undergraduate Research Experiences

ERIC Educational Resources Information Center

Quan, Gina M.; Elby, Andrew

2016-01-01

Undergraduate research can support students' more central participation in physics. We analyze markers of two coupled shifts in participation: changes in students' views about the nature of science coupled to shifts in self-efficacy toward physics research. Students in the study worked with faculty and graduate student mentors on research projects…

Systemic Mentoring for Competitiveness: The Model of the Timbuktu Academy

NASA Astrophysics Data System (ADS)

Bagayoko, Diola

2010-02-01

The Timbuktu Academy is a comprehensive, systemic mentoring program at Southern University and A&M College in Baton Rouge (SUBR), Louisiana. We define systemic mentoring as one that is woven into the core functions of an organization. For most universities, those functions include instruction, research, and service. While the Academy has programs for pre-college and graduate students, its Ten-Strand Systemic Mentoring Model was specifically tailored to undergraduate education. We discuss basic considerations that led to the paradigm, programs, activities, and results of the Timbuktu Academy. The proper implementation of the Ten-Strand Systemic Mentoring Model couples teaching and superior learning, on the one hand, and integrates research and education, on the other hand. For undergraduate education, key strands include support (financially or otherwise), scientific advisement, research participation (academic year or summer), immersion in a professional culture, monitoring, and guidance to graduate school. From the summer of 1994 to 2009, the Academy has engaged 2,093 pre-college scholars in its summer programs. To date, the Academy has assisted in the production of one hundred seventy (170) minority undergraduate scholars who have earned a Bachelor of Science degree. Seventy (70) of 83 physics graduates, twenty (20) of 29 chemistry graduates, and twenty-two (22) of 49 engineering graduates have earned graduate degrees or are successfully enrolled in graduate school, with emphasis on the pursuit of the Ph.D. For the above model and results, the Timbuktu Academy received the 2002 U.S. Presidential Award for Excellence in Science, Mathematics, and Engineering Mentoring. Its director was among the first individual recipients of this award in 1996. The handouts accompanying this presentation are intended to facilitate the adaptive replication of the Timbuktu Academy by individuals, departments, colleges and universities, and other organizations. )

Undergraduate Medical Students Using Facebook as a Peer-Mentoring Platform: A Mixed-Methods Study

PubMed Central

Gradel, Maximilian; Pander, Tanja; Fischer, Martin R; von der Borch, Philip; Dimitriadis, Konstantinos

2015-01-01

Background Peer mentoring is a powerful pedagogical approach for supporting undergraduate medical students in their learning environment. However, it remains unclear what exactly peer mentoring is and whether and how undergraduate medical students use social media for peer-mentoring activities. Objective We aimed at describing and exploring the Facebook use of undergraduate medical students during their first 2 years at a German medical school. The data should help medical educators to effectively integrate social media in formal mentoring programs for medical students. Methods We developed a coding scheme for peer mentoring and conducted a mixed-methods study in order to explore Facebook groups of undergraduate medical students from a peer-mentoring perspective. Results All major peer-mentoring categories were identified in Facebook groups of medical students. The relevance of these Facebook groups was confirmed through triangulation with focus groups and descriptive statistics. Medical students made extensive use of Facebook and wrote a total of 11,853 posts and comments in the respective Facebook groups (n=2362 total group members). Posting peaks were identified at the beginning of semesters and before exam periods, reflecting the formal curriculum milestones. Conclusions Peer mentoring is present in Facebook groups formed by undergraduate medical students who extensively use these groups to seek advice from peers on study-related issues and, in particular, exam preparation. These groups also seem to be effective in supporting responsive and large-scale peer-mentoring structures; formal mentoring programs might benefit from integrating social media into their activity portfolio. PMID:27731859

Leading Undergraduate Research Projects in Mathematical Modeling

ERIC Educational Resources Information Center

Seshaiyer, Padmanabhan

2017-01-01

In this article, we provide some useful perspectives and experiences in mentoring students in undergraduate research (UR) in mathematical modeling using differential equations. To engage students in this topic, we present a systematic approach to the creation of rich problems from real-world phenomena; present mathematical models that are derived…

`INCLUDING' Partnerships to Build Authentic Research Into K-12 Science Education

NASA Astrophysics Data System (ADS)

Turrin, M.; Lev, E.; Newton, R.; Xu, C.

2017-12-01

Opportunities for authentic research experiences have been shown effective for recruiting and retaining students in STEM fields. Meaningful research experiences entail significant time in project design, modeling ethical practice, providing training, instruction, and ongoing guidance. We propose that in order to be sustainable, a new instructional paradigm is needed, one that shifts from being top-weighted in instruction to a distributed weight model. This model relies on partnerships where everyone has buy-in and reaps rewards, establishing broadened networks for support, and adjusting the mentoring model. We use our successful Secondary School Field Research Program as a model for this new paradigm. For over a decade this program has provided authentic geoscience field research for an expanding group of predominantly inner city high school youth from communities underrepresented in the sciences. The program has shifted the balance with returning participants now serving as undergraduate mentors for the high school student `researchers', providing much of the ongoing training, instruction, guidance and feedback needed. But in order to be sustainable and impactful we need to broaden our base. A recent NSF-INCLUDES pilot project has allowed us to expand this model, linking schools, informal education non-profits, other academic institutions, community partners and private funding agencies into geographically organized `clusters'. Starting with a tiered mentoring model with scientists as consultants, teachers as team members, undergraduates as team leaders and high school students as researchers, each cluster will customize its program to reflect the needs and strengths of the team. To be successful each organization must identify how the program fits their organizational goals, the resources they can contribute and what they need back. Widening the partnership base spreads institutional commitments for research scientists, research locations and lab space, meaningful projects and undergraduate mentors. Representatives from the clusters formed working groups to turn best practices in areas such as mentoring, recruitment, assessment and funding into a flexible structure for the clusters. These working groups will provide the outline to expand a successful authentic research program.

The 2013 Summer Undergraduate Research Internship Program at the Pisgah Astronomical Research Institute

NASA Astrophysics Data System (ADS)

Castelaz, Michael W.; Cline, J. D.; Whitworth, C.; Clavier, D.; Barker, T.

2014-01-01

Pisgah Astronomical Research Institute (PARI) offers summer undergraduate research internships. PARI has received support for the internships from the EMC Corporation, private donations, private foundations, and through a collaboration with the Pisgah Astronomical Research and Education Center of the University of North Carolina - Asheville. The internship program began in 2001 with 4 students. This year 10 funded students participated. Mentors for the interns include PARI’s Directors of Science, Education, and Information Technology and visiting faculty who are members of the PARI Research Faculty Affiliate program. Students work with mentors on radio and optical astronomy research, electrical engineering for robotic control of instruments, software development for instrument control and and science education by developing curricula and multimedia and teaching high school students in summer programs at PARI. At the end of the summer interns write a paper about their research which is published in the PARI Summer Student Proceedings. Students are encouraged to present their research at AAS Meetings. We will present a summary of specific research conducted by the students with their mentors.

Learning to Become a More Effective Research or Inquiry-based Project Mentor

NASA Astrophysics Data System (ADS)

Hooper, E. J.; Pfund, C.; Mathieu, R.; Branchaw, J.

2010-08-01

How effective of a mentor are you? Have you thought much about this question? Have you participated in training to become a better mentor? For many academics, the typical three answers are "pretty good, I think ... why wouldn't I be?!"; "I am right now while reading this;" "Uh, no." The University of Wisconsin-Madison has developed a program called Research Mentor Training to help train scientists in myriad STEM (science, technology, engineering and mathematics) disciplines, including astronomy, for their crucial role of mentoring the next generation. Most of the field testing to date has focused on graduate students, post-docs, academic staff, and faculty mentoring undergraduate students who are participating in summer research experiences. The materials have proven quite effective in other areas as well, with only modest modifications. For example, several faculty cohorts concentrating on mentoring graduate students and post-docs have completed the training. In addition, the materials are used to prepare graduate students and undergraduates to mentor high school students. The preferred venue for the mentor training program is a seminar meeting one hour per week for 8 to 9 weeks, plus readings and outside activities, including mentoring a student. However, the structure is flexible, and some meaningful learning can occur in a single 90-minute interactive workshop like the one presented at the 2009 ASP annual meeting, "Science Education and Outreach: Forging a Path to the Future." All of the materials, including case studies, facilitator notes and guidelines, plus reading lists, are available online for no charge (http://researchmentortraining.org). Users can select pre-built curricula, or they can customize a package using a "shopping cart" interface.

An Evaluation of a Course That Introduces Undergraduate Students to Authentic Aerospace Engineering Research

ERIC Educational Resources Information Center

Mena, Irene B.; Schmitz, Sven; McLaughlin, Dennis

2015-01-01

This paper describes the implementation and assessment of an aerospace engineering course in which undergraduate students worked on research projects with graduate research mentors. The course was created using the principles from cooperative learning and project-based learning, and consisted of students working in small groups on a complex,…

Peer Mentoring to Facilitate Original Scientific Research by Students With Special Needs

NASA Astrophysics Data System (ADS)

Danch, J. M.

2007-12-01

Developed to allow high school students with special needs to participate in original scientific research, the Peer Mentoring Program was a supplement to existing science instruction for students in a self-contained classroom. Peer mentors were high school seniors at the end of a three-year advanced science research course who used their experience to create and develop inquiry-based research activities appropriate for students in the self- contained classroom. Peer mentors then assisted cooperative learning groups of special education students to facilitate the implementation of the research activities. Students with special needs successfully carried out an original research project and developed critical thinking and laboratory skills. Prior to embarking on their undergraduate course of study in the sciences, peer mentors developed an appreciation for the need to bring original scientific research to students of all levels. The program will be expanded and continued during the 2007-2008 school year.

A Comparison of Internal Dispositions and Career Trajectories after Collaborative versus Apprenticed Research Experiences for Undergraduates.

PubMed

Frantz, Kyle J; Demetrikopoulos, Melissa K; Britner, Shari L; Carruth, Laura L; Williams, Brian A; Pecore, John L; DeHaan, Robert L; Goode, Christopher T

2017-01-01

Undergraduate research experiences confer benefits on students bound for science, technology, engineering, and mathematics (STEM) careers, but the low number of research professionals available to serve as mentors often limits access to research. Within the context of our summer research program (BRAIN), we tested the hypothesis that a team-based collaborative learning model (CLM) produces student outcomes at least as positive as a traditional apprenticeship model (AM). Through stratified, random assignment to conditions, CLM students were designated to work together in a teaching laboratory to conduct research according to a defined curriculum led by several instructors, whereas AM students were paired with mentors in active research groups. We used pre-, mid-, and postprogram surveys to measure internal dispositions reported to predict progress toward STEM careers, such as scientific research self-efficacy, science identity, science anxiety, and commitment to a science career. We are also tracking long-term retention in science-related career paths. For both short- and longer-term outcomes, the two program formats produced similar benefits, supporting our hypothesis that the CLM provides positive outcomes while conserving resources, such as faculty mentors. We discuss this method in comparison with course-based undergraduate research and recommend its expansion to institutional settings in which mentor resources are scarce. © 2017 K. J. Frantz et al. CBE—Life Sciences Education © 2017 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

AstroCom NYC: A City Partnership for the Next Generation of Astrophysicists

NASA Astrophysics Data System (ADS)

Paglione, Timothy; Ford, K. E. Saavik; Robbins, Dennis; Mac Low, Mordecai; Agüeros, Marcel; Anchordoqui, Luis; Acquaviva, Viviana; Bellovary, Jillian; Cruz, Kelle; Liu, Charles; Maller, Ari; McKernan, Barry; Minor, Quinn; O'Dowd, Matthew; Rice, Emily; Sheffield, Allyson

2018-01-01

AstroCom NYC is an undergraduate mentoring program designed to improve urban minority student access to opportunities in astrophysical research by greatly enhancing partnerships between research astronomers in New York City (City University of New York – an MSI, American Museum of Natural History, and Columbia). AstroCom NYC also partnered this past year with the Flatiron Institute Center for Computational Astrophysics to provide new and exciting midtown opportunities for students, and foster an expanding mentor network through the city. We provide centralized, personalized mentoring as well as financial and academic support, to CUNY undergraduates throughout their studies, plus the resources and opportunities to further CUNY faculty research with students. The goal is that students’ residency in the unique research environments at AMNH and the CCA helps them build a sense of belonging in the field, and readies and inspires them for graduate study. We welcomed our fifth and largest cohort last year, and had some of our first graduates accepted to grad school and bridge programs.

Teaming introductory biology and research labs in support of undergraduate education.

PubMed

Heitz, Jean G; Giffen, Cynthia J

2010-09-01

Numerous studies have indicated the need to improve the general level of science literacy among students and to increase the number of students electing science as a career. One mechanism for doing this is to involve undergraduates in research. This article reports how our Introductory Biology 152 course has worked synergistically with mentors in research labs on the University of Wisconsin-Madison campus to increase undergraduate retention in research and at the same time improve their higher order inquiry and communication skills.

A framework for mentoring of medical students: thematic analysis of mentoring programmes between 2000 and 2015.

PubMed

Tan, Yin Shuen; Teo, Shao Wen Amanda; Pei, Yiying; Sng, Julia Huina; Yap, Hong Wei; Toh, Ying Pin; Krishna, Lalit K R

2018-03-17

A consistent mentoring approach is key to unlocking the full benefits of mentoring, ensuring effective oversight of mentoring relationships and preventing abuse of mentoring. Yet consistency in mentoring between senior clinicians and medical students (novice mentoring) which dominate mentoring processes in medical schools is difficult to achieve particularly when mentors practice in both undergraduate and postgraduate medical schools. To facilitate a consistent approach to mentoring this review scrutinizes common aspects of mentoring in undergraduate and postgraduate medical schools to forward a framework for novice mentoring in medical schools. Four authors preformed independent literature searches of novice mentoring guidelines and programmes in undergraduate and postgraduate medical schools using ERIC, PubMed, CINAHL, OVID and Science Direct databases. 25,605 abstracts were retrieved, 162 full-text articles were reviewed and 34 articles were included. The 4 themes were identified-preparation, initiating and supporting the mentoring process and the obstacles to effective mentoring. These themes highlight 2 key elements of an effective mentoring framework-flexibility and structure. Flexibility refers to meeting the individual and changing needs of mentees. Structure concerns ensuring consistency to the mentoring process and compliance with prevailing codes of conduct and standards of practice.

"Take the Fifth": Mentoring Students Whose Cultural Communities Were Not Historically Structured into U.S. Higher Education

ERIC Educational Resources Information Center

Dodson, Jualynne E.; Montgomery, Beronda L.; Brown, Lesley J.

2009-01-01

This article presents a description of the African Atlantic Research Team as exemplary of ten years of successful mentoring of undergraduate and graduate university students who are focused on a Ph.D in disciplines traditionally associated with academic research and teaching. The team is distinctive because it is multi-disciplinary in composition,…

Undergraduate Research Experiences: Mentoring, Awareness, and Perceptions--A Case Study at a Hispanic-Serving Institution

ERIC Educational Resources Information Center

Rodríguez Amaya, Laura; Betancourt, Tania; Collins, Kristina Henry; Hinojosa, Orlando; Corona, Carlos

2018-01-01

Background: Undergraduate research experiences (UREs) have been proposed as means to increase the retention and engagement of minority--and more specifically Hispanic--college students in science, technology, engineering, and mathematics (STEM) majors. This study explores the impact of student characteristics such as gender, classification,…

Broadening Participation: Mentoring Community College Students in a Geoscience REU

NASA Astrophysics Data System (ADS)

Smith, M.; Osborn, J.

2015-12-01

Increasingly, REUs are recruiting from community colleges as a means of broadening participation of underrepresented minorities, women, and low-income students in STEM. As inclusion of community college students becomes normalized, defining the role of science faculty and preparing them to serve as mentors to community college students is a key component of well-designed programs. This session will present empirical research regarding faculty mentoring in the first two years of an NSF-REU grant to support community college students in a university's earth and environmental science labs. Given the documented benefits of undergraduate research on students' integration into the scientific community and their career trajectory in STEM, the focus of the investigation has been on the processes and impact of mentoring community college STEM researchers at a university serving a more traditionally privileged population; the degree to which the mentoring relationships have addressed community college students needs including their emotional, cultural and resource needs; and gaps in mentor training and the mentoring relationship identified by mentors and students.

The Community Mentoring REU: A Novel Paradigm for Research Experiences for Undergraduates Programs

NASA Astrophysics Data System (ADS)

Kobulnicky, Henry; Maierhofer, Lara; Kobulnicky, Carol; Dale, Daniel A.

2018-01-01

Research Experience for Undergraduates programs were conceived to promote entry of college students into STEM disciplines. Evidence suggests that participating in REUs increases interest in STEM, conveys skills leading to STEM jobs and graduate study, increases science self-efficacy, builds professional networks for young scientists, and cultivates identity as a scientist. Nevertheless, the factors that mediate desired outcomes are still poorly understood, and persistence of negative mentoring experiences among REU participants motivates the design and study of novel approaches to preparing future STEM professionals. During five summers spanning 2012-2016 we implemented a "Community Mentoring" paradigm at the University of Wyoming's 10-week Astronomy REU program. In contrast to "traditional model (TM)" REUs that pair a single senior scientist mentor with a single junior mentee, community mentoring (CM) unites 6-8 undergraduates with 3-5 faculty (perhaps assisted by a graduate student or postdoc) on a collaborative team addressing a single science goal. In CM, students have access to a pool of mentors and a peer group reading the same literature, working in a common location, sharing equipment (in this case the WIRO 2.3 meter telescope), sharing data, and learning the same analysis skills. The community interacts daily, modeling the highly collaborative nature of modern scientific teams. Our study used an electronic survey consisting of 24 questions to compare a cohort of 28 CM students to a national control group of 77 students who conducted REUs elsewhere during the same period, typically under the TM. CM students report a significantly higher level of "learning from their peers", "learning to work on a science team", and "sense of community" compared to the TM cohort. The CM cohort also reports a higher overall level of satisfaction with the REU and a lower level of negative experiences, such as finding it difficult to get time with a mentor. This talk will review other lessons learned in five years of community mentoring as it describes an alternative paradigm for REUs.

Education Highlights: Synthetic Nanoparticles

DOE Office of Scientific and Technical Information (OSTI.GOV)

Gambacorta, Francesca; Michalska, Martyna

Argonne intern Francesca Gambacorta from University of Illinois at Urbana–Champaign worked with Argonne mentor Phil Laible and Postdoctoral mentor Martyna Michalska to study how black silicon, a synthetic nanomaterial, kills bacteria. This research will help scientists predict other applications of this material in the biomedical field. Argonne aims to develop the next generation of scientists, researchers, and engineers by mentoring over 300 undergraduate and graduate students a year from over 40 STEM majors in over 15 different career development programs. Students come from over 160 colleges and universities in 41 states and 15 countries.

Maximizing a Multilevel Mentoring Model to Improve Research Experiences for Undergraduates Student Outcomes

NASA Astrophysics Data System (ADS)

Moser, F. C.; Allen, M. R.; Clark, J.

2016-12-01

Since 1989 the Maryland Sea Grant REU program's mentoring approach evolved considerably from a near `hands-off' approach to one that explores ways to maximize mentoring effectiveness. Our current model creates a multi-tiered system: the REU - research mentor relationship remains central to setting the student's science project, but greater student growth is supported by REU program leaders, visiting researchers, graduate students, and peer and near-peer mentors. Evaluation of our evolving mentoring program suggests our approach is successful and serves a diversity of students well, but we recognize the challenge of devising an evaluation system, given our limited annual cohort number (15 - 17 students), that fully captures the nuances of student - mentor relationships. We present multiple years of data on student skills, networks of relationships, student goals, and mentor goals using qualitative, quantitative and interview assessments. Further, we explore opportunities to strengthen our efforts and evolve our evaluation approach as we aspire to more accurately identify the components of our multilevel mentoring model that contribute most significantly to student success.

An Undergraduate Research Fellowship Program to Prepare Nursing Students for Future Workforce Roles

PubMed Central

Slattery, Mary Jo; Logan, Bridget; Mudge, Bridget; Secore, Karen; Von Reyn, LInda J.; Maue, Robert A.

2016-01-01

It is important for nurses today and for those joining the workforce in the future to have familiarity and training with respect to interprofessional research, evidence-based practice, and quality improvement. In an effort to address this need, we describe a 10-week summer research program that immerses undergraduate nursing students in a broad spectrum of clinical and translational research projects as part of their exposure to advanced nursing roles. In doing so, the program increases the ability of the students to participate in research, effectively interact with academic medical center researchers, and incorporate elements of evidence-based practice into future nursing interventions. Their mentors are nurses practicing in roles as nurse researcher, advanced practice nurses involved in evidence-based practice or quality improvement, and clinical trials research nurses. Each student is matched with 3 of these mentors and involved in 3 different projects. Through this exposure, the students benefit from observing multiple nursing roles, taking an active role in research-related activities participating in interdisciplinary learning experiences. Overall, the program provides benefits to the students, who demonstrate measured improvement with respect to the program objectives, and to their mentors and each of the participating organizations. PMID:27964811

Efforts at Broadening Participation in the Sciences: An Examination of the Mentoring Experiences of Students from Underrepresented Groups.

PubMed

Prunuske, Amy; Wilson, Janelle; Walls, Melissa; Marrin, Hannah; Clarke, Benjamin

2016-01-01

With the primary objective of attracting and retaining students from underrepresented backgrounds in the sciences, evaluation of one institution's program has been ongoing over the past three years. Interviews with mentors in the program followed by focus groups conducted with mentees reveal key factors that shape undergraduate students' research experiences. In the present study, attention is given to data gathered from 15 mentees in the program, the majority of whom have enrolled in community colleges, represent low socioeconomic backgrounds, and are nontraditional students. The results from focus groups with the mentees provide information on the benefits of participating in the program, characteristics of good mentors, challenges to the mentoring relationship, and the effects of underrepresented status on pursuit of advanced degrees. Comparisons of mentees' comments about the mentoring relationship with mentors' comments reveal similar themes and patterns while also demonstrating interesting differences. The qualitative findings are also juxtaposed with participants' responses on the Survey of Undergraduate Research Experiences. Taken together, the data enhance our understanding of the experiences of underrepresented students in faculty-mentored research programs and highlight challenges and perspectives of students who are transferring to the university from a community college. © 2016 A. Prunuske et al. CBE—Life Sciences Education © 2016 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

MIRADA A LA MENTORÍA EN INVESTIGACIÓN DESDE LA PERSPECTIVA SOCIOCULTURAL DE VYGOTSKY.

PubMed

Santiago, Nilda G Medina; Rivera, Tania M Cruz; Ortiz, Natalia Jordán

In this article the authors illustrate the mentoring process through the framework of Vygotsky's sociocultural perspective regarding education and human development. To achieve this goal, they describe their experience as mentor and mentees in a research training mentoring program for undergraduate students. The authors argue that this theoretical and philosophical perspective offers a solid background to mentoring as a real option that contributes to the learning process. They recommend these programs to be encouraged by academic institutions in order for more students and professors to benefit from this process.

Peer-Mentoring Undergraduate Accounting Students: The Influence on Approaches to Learning and Academic Performance

ERIC Educational Resources Information Center

Fox, Alison; Stevenson, Lorna; Connelly, Patricia; Duff, Angus; Dunlop, Angela

2010-01-01

This article considers the impact of a student peer-mentoring programme (the Mentor Accountant Project, MAP) on first-year undergraduates' academic performance. The development of MAP was informed by reference to extant literature; it relies on the voluntary services of third-year students who then act as mentors to first-year student mentees in…

Developing the next generation of nurse scientists.

PubMed

Burkhart, Patricia V; Hall, Lynne A

2015-01-01

This article describes an undergraduate nursing research internship program in which students are engaged in research with a faculty mentor. Since 2002, more than 130 undergraduate nursing students have participated. Interns coauthored publications, presented papers and posters at conferences, and received awards. This highly successful program provides a model that can be easily replicated to foster the development of future nurse scientists.

Faculty as Undergraduate Research Mentors for Students of Color: Taking into Account the Costs

ERIC Educational Resources Information Center

Schwartz, Joni

2012-01-01

This article is based on the findings of a 2-year study that examined the nature of effective faculty/student undergraduate research (UR) science, technology, engineering, and mathematics (STEM) relationships. The study site was a large urban public college where three fourths of all incoming freshmen receive need-based aid; and although not a…

From Face-to-Face to e-Mentoring: Does the "e" Add Any Value for Mentors?

ERIC Educational Resources Information Center

Shrestha, Celayne Heaton; May, Steve; Edirisingha, Palitha; Burke, Linda; Linsey, Tim

2009-01-01

For many years, face-to-face peer mentoring has been a feature of learning support provided to first-year undergraduate students at one university in the UK. Building on the success of these initiatives, a scheme has been developed at this institution in which first-year undergraduates are mentored by second- and third-year students through a…

Developing future clinician scientists while supporting a research infrastructure.

PubMed

Holsti, Maija; Adelgais, Kathleen M; Willis, Leah; Jacobsen, Kammy; Clark, Edward B; Byington, Carrie L

2013-04-01

Supporting clinical research is a national priority. Clinician scientists are rare and clinical trials in academic medical centers (AMC) often fail to meet enrollment goals. Undergraduate students interested in biomedical careers often lack opportunities to perform clinical research. Describe an innovative undergraduate course that supports clinical research in an AMC. The course, Clinical Research Methods and Practice, offers undergraduate students the opportunity to learn clinical research through didactic and practical experiences. The students in turn support clinician scientists' conduct of clinical studies in an AMC. Clinician scientists receive research support and participate in mentoring sessions for students. Over seven semesters, 128 students have assisted in 21 clinical studies located in outpatient and inpatient units of two hospitals. Students identified and screened eligible patients, collected clinical data, assisted in obtaining informed consent, and transported specimens. Many of the clinician scientists have met their enrollment goals and several have been top-enrollers in multicenter clinical trials as a result of student support. The Clinical Research Methods and Practice class addresses barriers to clinical research in AMC. This may be a model for institutions committed to mentoring students early in their career and to developing infrastructures for clinical research. © 2013 Wiley Periodicals, Inc.

Hierarchical Mentoring: A Transformative Strategy for Improving Diversity and Retention in Undergraduate STEM Disciplines

NASA Astrophysics Data System (ADS)

Wilson, Zakiya S.; Holmes, Lakenya; Degravelles, Karin; Sylvain, Monica R.; Batiste, Lisa; Johnson, Misty; McGuire, Saundra Y.; Pang, Su Seng; Warner, Isiah M.

2012-02-01

In the United States, less than half of the students who enter into science, technology, engineering, and mathematics (STEM) undergraduate curricula as freshmen will actually graduate with a STEM degree. There is even greater disparity in the national STEM graduation rates of students from underrepresented groups with approximately three-fourths of minority students leaving STEM disciplines at the undergraduate level. A host of programs have been designed and implemented to model best practices in retaining students in STEM disciplines. The Howard Hughes Medical Institute (HHMI) Professors Program at Louisiana State University, under leadership of HHMI Professor Isiah M. Warner, represents one of these programs and reports on a mentoring model that addresses the key factors that impact STEM student attrition at the undergraduate level. By integrating mentoring and strategic academic interventions into a structured research program, an innovative model has been developed to guide STEM undergraduate majors in adopting the metacognitive strategies that allow them to excel in their programs of study, as they learn to appreciate and understand science more completely. Comparisons of the persistence of participants and nonparticipants in STEM curricular, at the host university and with other national universities and colleges, show the impact of the model's salient features on improving STEM retention through graduation for all students, particularly those from underrepresented groups.

The American Geological Institute Minority Participation Program

NASA Astrophysics Data System (ADS)

Smith, M. J.; Byerly, G. R.; Callahan, C. N.

2001-12-01

Since 1971, the American Geological Institute (AGI) Minority Participation Program (MPP) has supported scholarships for underrepresented minorities in the geosciences at the undergraduate and graduate levels. Some of our MPP scholars have gone on to hugely successful careers in the geosciences. MPP scholars include corporate leaders, university professors, a NASA scientist-astronaut and a National Science Foundation (NSF) CAREER awardee. Yet as ethnic minorities continue to be underrepresented in the geosciences, AGI plans to expand its efforts beyond its traditional undergraduate and graduate scholarships to include diversity programs for secondary school geoscience teacher internships, undergraduate research travel support, and doctoral research fellowships. Funding for the MPP has come from multiple sources, including industry, scientific societies, individuals, and during the last 10 years, the NSF. College-level students apply for the MPP awards or award renewals, and the MPP Advisory Committee selects scholarship recipients based upon student academic performance, financial need, and potential for success as a geoscience professional. Mentoring is a long-standing hallmark of the AGI MPP. Every AGI MPP scholar is assigned a professional geoscientist as a mentor. The mentor is responsible for regular personal contacts with MPP scholars. The MPP Advisory Committee aims to match the profession of the mentor with the scholar's academic interest. Throughout the year, mentors and scholars communicate about possible opportunities in the geosciences such as internships, participation in symposia, professional society meetings, and job openings. Mentors have also been active in helping younger students cope with the major changes involved in relocating to a new region of the country or a new college culture. We believe that AGI is well-positioned to advance diversity in the geosciences through its unique standing as the major professional organization in the geosciences. AGI maintains strong links to its 37 professional Member Societies, state and federal agencies, and funding programs, many with distinctive programs in the geoscience education. AGI Corporate Associates have consistently pledged to support diversity issues in geoscience education. Current plans include seeking funding for 48 undergraduate awards at 2500 each and 24,000 to support undergraduate travel to professional meetings. We also expect to increase the size of our graduate scholarship program to 30 students and raise an additional $30,000 to support graduate travel to professional meetings.

Undergraduate Peer Mentors as Teacher Leaders: Successful Starts

ERIC Educational Resources Information Center

Wallin, Dawn; DeLathouwer, Erin; Adilman, Jordan; Hoffart, Jessie; Prior-Hildebrandt, Kathy

2017-01-01

This paper discusses the results of a qualitative study that examined the professional growth of undergraduate peer mentors as teacher leaders during an innovative Learning Community initiative designed for a teacher education program at the University of Saskatchewan. The paper describes the extent to which peer mentors exhibited characteristics…

Effect of Peer Mentors on Academic Performance

ERIC Educational Resources Information Center

Bonin, Elizabeth

2016-01-01

Undergraduate peer mentoring programs strive to retain students who solve their own problems, develop options, unravel obstacles, and establish a process of figuring out solutions. A crucial component of obtaining that goal is to effectively train peer mentors to serve as advocates to freshman undergraduate students. Terrion and Philion (2008)…

Undergraduate nursing student mentors' experiences of peer mentoring in Korea: A qualitative analysis.

PubMed

Won, Mi-Ra; Choi, Yun-Jung

2017-04-01

Although mentoring involves the achievement of a mutual relationship between mentors and mentees, most studies have focused on the effects of mentoring on the mentees rather than that on the mentors, which necessitates the need to identify mentors' experiences to provide original resources for mentoring. The purpose of this study was to explore the mentoring experience of nursing students who participated as mentors in a mentoring learning program, to offer evidence-based resources for nursing educators to develop mentoring programs and to use mentorship as an educational method. A qualitative content analysis of transcribed focus groups was conducted to describe and explore the undergraduate nursing students' mentoring experiences. This study was conducted in two nursing schools in South Korea. Fifteen student mentors from the peer mentoring program participated in the present study. They were aged between 21 and 24years, and 87% of the participants were female. The experiences of the mentors were explored through focus groups, and the collected data were analyzed by content analysis. The mentors' experiences could be summarized by the core theme, "Self-growth as a leader," consisting of the following themes: taking pride, guiding mentees, coping with conflicts, and building leadership. The themes and codes derived from mentors' experiences would provide evidence-based guidelines and resources for nursing educators and professionals in related disciplines regarding successful peer mentoring, which could facilitate self-growth and foster the development of leadership skills in undergraduate students. Copyright © 2017 Elsevier Ltd. All rights reserved.

Preparing the “New” Biologist of the Future: Student Research at the Interface of Mathematics and Biology

PubMed Central

Bishop, Pamela; Lenhart, Suzanne

2010-01-01

We describe a unique Research Experience for Undergraduates and Research Experience for Veterinary students summer program at the National Institute for Mathematical and Biological Synthesis on the campus of the University of Tennessee, Knoxville. The program focused on interdisciplinary research at the interface of biology and mathematics. Participants were selected to work on projects with a biology mentor and a mathematics mentor in an environment that promoted collaboration outside of the students' respective disciplines. There were four research projects with teams of four participants and two faculty mentors. The participants consisted of a mixture of 10 undergraduates in biology- and mathematics-related disciplines, four veterinary students, and two high-school teachers. The activities included lectures on both the biological and mathematical backgrounds of the projects, tutorials for software, and sessions on ethics, graduate school, and possible career paths for individuals interested in biology and mathematics. The program was designed to give students the ability to actively participate in the scientific research process by working on a project, writing up their results in a final report, and presenting their work orally. We report on the results of our evaluation surveys of the participants. PMID:20810963

Preparing the "new" biologist of the future: student research at the interface of mathematics and biology.

PubMed

Duncan, Sarah I; Bishop, Pamela; Lenhart, Suzanne

2010-01-01

We describe a unique Research Experience for Undergraduates and Research Experience for Veterinary students summer program at the National Institute for Mathematical and Biological Synthesis on the campus of the University of Tennessee, Knoxville. The program focused on interdisciplinary research at the interface of biology and mathematics. Participants were selected to work on projects with a biology mentor and a mathematics mentor in an environment that promoted collaboration outside of the students' respective disciplines. There were four research projects with teams of four participants and two faculty mentors. The participants consisted of a mixture of 10 undergraduates in biology- and mathematics-related disciplines, four veterinary students, and two high-school teachers. The activities included lectures on both the biological and mathematical backgrounds of the projects, tutorials for software, and sessions on ethics, graduate school, and possible career paths for individuals interested in biology and mathematics. The program was designed to give students the ability to actively participate in the scientific research process by working on a project, writing up their results in a final report, and presenting their work orally. We report on the results of our evaluation surveys of the participants.

Journal of Undergraduate Research, Volume IX, 2009

DOE Office of Scientific and Technical Information (OSTI.GOV)

Stiner, K. S.; Graham, S.; Khan, M.

Each year more than 600 undergraduate students are awarded paid internships at the Department of Energy’s (DOE) National Laboratories. Th ese interns are paired with research scientists who serve as mentors in authentic research projects. All participants write a research abstract and present at a poster session and/or complete a fulllength research paper. Abstracts and selected papers from our 2007–2008 interns that represent the breadth and depth of undergraduate research performed each year at our National Laboratories are published here in the Journal of Undergraduate Research. The fields in which these students worked included: Biology; Chemistry; Computer Science; Engineering; Environmentalmore » Science; General Science; Materials Science; Medical and Health Sciences; Nuclear Science; Physics; Science Policy; and Waste Management.« less

MIRADA A LA MENTORÍA EN INVESTIGACIÓN DESDE LA PERSPECTIVA SOCIOCULTURAL DE VYGOTSKY

PubMed Central

SANTIAGO, NILDA G. MEDINA; RIVERA, TANIA M. CRUZ; ORTIZ, NATALIA JORDÁN

2015-01-01

In this article the authors illustrate the mentoring process through the framework of Vygotsky's sociocultural perspective regarding education and human development. To achieve this goal, they describe their experience as mentor and mentees in a research training mentoring program for undergraduate students. The authors argue that this theoretical and philosophical perspective offers a solid background to mentoring as a real option that contributes to the learning process. They recommend these programs to be encouraged by academic institutions in order for more students and professors to benefit from this process. PMID:27042255

Mentoring for Inclusion: The Impact of Mentoring on Undergraduate Researchers in the Sciences.

PubMed

Haeger, Heather; Fresquez, Carla

Increasing inclusion of underrepresented minority and first-generation students in mentored research experiences both increases diversity in the life sciences research community and prepares students for successful careers in these fields. However, analyses of the impact of mentoring approaches on specific student gains are limited. This study addresses the impact of mentoring strategies within research experiences on broadening access to the life sciences by examining both how these experiences impacted student success and how the quality of mentorship affected the development of research and academic skills for a diverse population of students at a public, minority-serving institution. Institutional data on student grades and graduation rates (n = 348) along with postresearch experience surveys (n = 138) found that students mentored in research had significantly higher cumulative grade point averages and similar graduation rates as a matched set of peers. Examination of the relationships between student-reported gains and mentoring strategies demonstrated that socioemotional and culturally relevant mentoring impacted student development during mentored research experiences. Additionally, extended engagement in research yielded significantly higher development of research-related skills and level of independence in research. Recommendations are provided for using mentoring to support traditionally underrepresented students in the sciences. © 2016 H. Haeger and C. Fresquez. CBE—Life Sciences Education © 2016 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Building the Numeracy Skills of Undergraduate and Elementary School Students

ERIC Educational Resources Information Center

Boger, Pam

2005-01-01

This paper describes a project with the goal of exposing both elementary school and undergraduate students to the concepts associated with the experimental method, from the formulation of a researchable question to the analysis and interpretation of the results. Under the guidance of their university mentors, fourth and fifth grade students…

Joint Task Force on Undergraduate Physics Programs

NASA Astrophysics Data System (ADS)

This session will focus on the guidelines and recommendations being developed by the APS/AAPT Joint Task Force on Undergraduate Physics Programs. J-TUPP is studying how undergraduate physics programs might better prepare physics majors for diverse careers. The guidelines and recommendations will focus on curricular content, flexible tracks, pedagogical methods, research experiences and internships, the development of professional skills, and enhanced advising and mentoring for all physics majors.

Creating a Research-Rich Curriculum at Miami University

NASA Astrophysics Data System (ADS)

Rauckhorst, William H.

2007-10-01

Miami University has attempted in recent years to build upon a collection of individual student research participation opportunities at the University, and develop a comprehensive ``research-rich'' undergraduate curriculum. A major step in this direction was the creation of the Undergraduate Summer Scholars (USS) program. This program provides 10-week summer research experiences with faculty mentors for 100 juniors or seniors each year. The USS Program is not limited to science and engineering areas, as approximately 30 academic departments participate annually. Development of the USS program at Miami was motivated by the University's prior experience with student research appointments funded by the National Science Foundation, the Howard Hughes Medical Institute, and other sponsoring agencies. The University's evaluation of these earlier student research experiences provided evidence that such experiences were at least as significant in a student's education as formal course work. A second important step in Miami's effort was obtaining a grant from the National Science Foundation's Comprehensive Reform of Undergraduate Education program. This funding enabled the University to enhance the Undergraduate Summer Scholars (USS) Program and evaluate student intellectual growth within the program. Two outcomes of this NSF-funded project are noteworthy: first, the USS program now is firmly established within the University's offerings; second, the evaluation ndicated profound student intellectual growth as a result of mentored research experiences. We will describe the development of the Undergraduate Summer Scholars Program, our evaluation of the Program, and ongoing efforts to extend the benefits of research experience to more students by incorporating research components within traditional coursework.

Overcoming Barriers in Access to High Quality Education after Matriculation: Promoting Strategies and Tactics for Engagement of Underrepresented Groups in Undergraduate Research via Institutional Diversity Action Plans

ERIC Educational Resources Information Center

Pierszalowski, Sophie; Vue, Rican; Bouwma-Gearhart, Jana

2018-01-01

Considerable work is still required to eliminate disparities in postsecondary STEM persistence and success across student groups. Engagement in faculty-mentored research has been employed as one strategy to promote personal, professional, and academic gains for undergraduate students, although barriers exist that make it more difficult for some to…

Short-term outcomes of a program developed to inculcate research essentials in undergraduate medical students.

PubMed

Devi, V; Ramnarayan, K; Abraham, R R; Pallath, V; Kamath, A; Kodidela, S

2015-01-01

Participation in research during undergraduate studies may increase students' interest in research and inculcate research essentials in them. The purpose of this study was to evaluate the effectiveness of the mentored student project (MSP) program. In the MSP program, students in groups (n = 3 to 5) undertook a research project, wrote a scholarly report, and presented the work as a poster presentation with the help of a faculty mentor. To begin with, the logic model of the program was developed to identify short-term outcomes of the program on students, mentors, and the institution. A quasi-experimental design was used to measure the outcomes. A mixed method evaluation was done using a newly-developed questionnaire to assess the impact of the MSP on students' attitude, a multiple-choice question (MCQs) test to find out the impact on students' knowledge and grading of students' project reports and posters along with a survey to check the impact on skills. Students' satisfaction regarding the program and mentors' perceptions were collected using questionnaires. Evidence for validity was collected for all the instruments used for the evaluation. Non-parametric tests were used to analyze data. Based on the scores, project reports and posters were graded into A (>70% marks), B (60-69% marks), and C (<59% marks) categories. The number of MSPs that resulted in publications, conference presentation and departmental collaborations were taken as impact on the institution. Students' response rate was 91.5%. The students' attitudes regarding research changed positively (P = 0.036) and score in the MCQ test improved (P < 0.001) after undertaking MSP. Majority of project reports and posters were of grade A category. The majority of the items related to skills gained and satisfaction had a median score of 4. The MSPs resulted in inter-departmental and inter-institutional collaborations, 14 publications and 15 conference presentations. An area for improvement noted was to have the MSP implemented in the curriculum without increasing students' overall workload and stress. The study identified strengths and weaknesses of the MSP program. Our model of undergraduate research project may be incorporated in undergraduate medical programs to foster positive attitude and knowledge base about scientific research and to instil research skills among students.

Watershed Watch: The Importance of Mentors in Student-driven Full Inquiry Undergraduate Research Projects as the Foundation for an Introductory Course in Biogeoscience

NASA Astrophysics Data System (ADS)

Rock, B. N.; Hale, S. R.; Graham, K. J.; Hayden, L.; Barber, L.; Perry, C.; Schloss, J.; Sullivan, E.; Yuan, J.; Abebe, E.; Mitchell, L.; Abrams, E.; Gagnon, M.

2008-12-01

Watershed Watch (NSF 0525433) engages early undergraduate students from two-year and four-year colleges in student-driven full inquiry-based instruction in the biogeosciences. Program goals for Watershed Watch are to test if inquiry-rich student-driven projects sufficiently engage undeclared students (or noncommittal STEM majors) to declare a STEM major (or remain with their STEM major). A significant component of this program is an intensive two-week Summer course, in which undeclared freshmen research various aspects of a local watershed. Students develop their own research questions and study design, collect and analyze data, and produce a scientific or an oral poster presentation. The course objectives, curriculum and schedule are presented as a model for dissemination for other institutions and programs seeking to develop inquiry-rich courses designed to attract students into biogeoscience disciplines. Data from self-reported student feedback indicated the most important factors explaining high-levels of student motivation and research excellence in the course are 1) working with committed, energetic, and enthusiastic faculty mentors; and 2) faculty mentors demonstrating high degrees of teamwork and coordination.

Advancing diversity and inclusion through AGU's mentoring programs

NASA Astrophysics Data System (ADS)

Asher, P. M.; Marasco, L.; Hurtado, C.; Hanlon, S. M.; Ambrogio, O.

2017-12-01

AGU offers three separate mentoring programs at the Fall Meeting. These are the Undergraduate Mentoring Program, Career and Research Advice Mentorship (CRAM) sessions, and the Sharing Science mentoring program. While each of these have had an impact on students and mentors, these programs are limited in that the mentor and mentee interactions only occur during the Fall Meeting. To increase the impact of mentoring beyond the Fall Meeting, AGU is piloting a new program that is entirely virtual. This virtual program, called Mentoring365, is designed to have a diverse set of mentees and mentors interacting over a three-month period. Mentoring365 offers participants with a mentor that they can "meet and interact with" outside of Fall Meeting and potentially continue a relationship beyond the duration of the program. It is intended to build or add to a student's professional network and provide a student with additional support outside their research, academic, and/or graduate advisor. This presentation will highlight some of the features of the program as well as provide insight into the progress of the Mentoring365 pilot. The ultimate intent is to expand the program efficacy by collaborating across organizations in the Earth and space sciences to provide a robust and diverse pool of mentors and mentees.

Interdisciplinary training in mathematical biology through team-based undergraduate research and courses.

PubMed

Miller, Jason E; Walston, Timothy

2010-01-01

Inspired by BIO2010 and leveraging institutional and external funding, Truman State University built an undergraduate program in mathematical biology with high-quality, faculty-mentored interdisciplinary research experiences at its core. These experiences taught faculty and students to bridge the epistemological gap between the mathematical and life sciences. Together they created the infrastructure that currently supports several interdisciplinary courses, an innovative minor degree, and long-term interdepartmental research collaborations. This article describes how the program was built with support from the National Science Foundation's Interdisciplinary Training for Undergraduates in Biology and Mathematics program, and it shares lessons learned that will help other undergraduate institutions build their own program.

Undergraduate cancer training program for underrepresented students: findings from a minority institution/cancer center partnership.

PubMed

Coronado, Gloria D; O'Connell, Mary A; Anderson, Jennifer; Löest, Helena; Ogaz, Dana; Thompson, Beti

2010-03-01

Students from racially/ethnically diverse backgrounds are underrepresented in graduate programs in biomedical disciplines. One goal of the Minority Institution/Cancer Center partnership between New Mexico State University (NMSU) and the Fred Hutchinson Cancer Research Center (FHCRC) is to expand the number of underrepresented students who are trained in cancer research. As part of the collaboration, a summer internship program has been organized at the FHCRC. The program runs for 9 weeks and involves mentored research, research seminars, coffee breaks, social activities, and a final poster session. This study examined the graduate school attendance rates of past interns, explored interns' perceptions of the training program, and identified ways to improve the program. Thirty undergraduate students enrolled at NMSU participated in the internship program from 2002 to 2007 and telephone interviews were conducted on 22 (73%) of them. One-third of the students were currently in graduate school (32%); the remaining were either working (36%), still in undergraduate school (27%), or unemployed and not in school (5%). Students rated highly the following aspects of the program: mentored research, informal time spent with mentors, and research seminars. Students also reported the following activities would further enhance the program: instruction on writing a personal statement for graduate school and tips in choosing an advisor. Students also desired instruction on taking the GRE/MCAT, receiving advice on selecting a graduate or professional school, and receiving advice on where to apply. These findings can inform the design of internship programs aimed at increasing rates of graduate school attendance among underrepresented students.

The influences and factors of an undergraduate research program in preparing women for science careers

NASA Astrophysics Data System (ADS)

Campbell, Ashley Mcdowell

Progress has been made in diminishing barriers experienced by women in science in recent years, however obstacles still remain. One of the key elements of the Texas Tech University Howard Hughes Medical Institute (TTU/HHMI) Undergraduate Biological Sciences Education Program is to "support activities that broaden access to science for women." In light of the barriers women in science face, this dissertation examined how the experiences of females in the TTU/HHMI fellows program prepared them for a career in science. This study employed mixed methods, utilizing both a questionnaire involving all past female fellows, and in-depth interviews with seven fellows who chose a career as a professional scientist. According to the quantitative data, research experience, the relationship with mentors, and opportunities to present at state or national meetings were program factors that fellows identified as contributing to their career success. The TTU/HHMI program experiences positively influenced the fellows' level of interest in science, confidence in science, and motivation to pursue a science-related career. Encouragement from the mentor and increased confidence regarding the ability to be successful in science were significant predictors of career advantages. Motivation to pursue a science-related career was the most significant predictor of the fellows' preparation to overcome barriers. Qualitatively, six themes were identified for coding, which included (1) research experience, (2) the mentor, (3) support and interactions, (4) self-confidence, (5) career decisions, and (6) time demands related to a science career. The themes identified were important factors in preparing these past female fellows for a career in science by initiating a change in their attitudes, knowledge, and skills. With over 90% of past fellows currently pursuing a science career, the program, through research experience and encouraging mentors, made a large impact on the career paths of fellows. Data from this study support the premise that the TTU/HHMI program and similar programs that provide undergraduate women with research experiences and mentoring have the potential to increase the number of women pursuing and continuing in science careers.

What Do They Say? Students from a Private, Faith-Based, Four-Year University Share Their Perspectives on College as a Mentoring Environment

ERIC Educational Resources Information Center

Bolster, Jeffrey Andrew

2011-01-01

Research indicates that the term mentor in the context of higher education currently has multiple definitions and is used to describe a variety of programs, efforts, and formal as well as informal activities. In recent years, interdisciplinary perspectives on traditional undergraduate students have been converging around the idea that the…

Smooth Transition for Advancement to Graduate Education (STAGE) for Underrepresented Groups in the Mathematical Sciences Pilot Project: Broadening Participation through Mentoring

ERIC Educational Resources Information Center

Eubanks-Turner, Christina; Beaulieu, Patricia; Pal, Nabendu

2018-01-01

The Smooth Transition for Advancement to Graduate Education (STAGE) project was a three-year pilot project designed to mentor undergraduate students primarily from under-represented groups in the mathematical sciences. The STAGE pilot project focused on mentoring students as they transitioned from undergraduate education to either graduate school…

Minority International Research Training Program: Global Collaboration in Nursing Research.

ERIC Educational Resources Information Center

McElmurry, Beverly J.; Misner, Susan J.; Buseh, Aaron G.

2003-01-01

The Minority International Research Training Program pairs minority nursing students with faculty mentors at international sites for short-term research. A total of 26 undergraduate, 22 graduate, and 6 postdoctoral students have participated. Challenges include recruitment, orientation, and preparation of students; identification and preparation…

The American Geological Institute Minority Participation Program (MPP): Thirty Years of Improving Access to Opportunities in the Geosciences Through Undergraduate and Graduate Scholarships for Underrepresented Minorities

NASA Astrophysics Data System (ADS)

Callahan, C. N.; Byerly, G. R.; Smith, M. J.

2001-05-01

Since 1971, the American Geological Institute (AGI) Minority Participation Program (MPP) has supported scholarships for underrepresented minorities in the geosciences at the undergraduate and graduate levels. Some of our MPP scholars have gone on to hugely successful careers in the geosciences. MPP scholars include corporate leaders, university professors, a NASA scientist-astronaut and a National Science Foundation (NSF) CAREER awardee. Yet as ethnic minorities continue to be underrepresented in the geosciences, AGI plans to expand its efforts beyond its traditional undergraduate and graduate scholarships to include diversity programs for secondary school geoscience teacher internships, undergraduate research travel support, and doctoral research fellowships. AGI promotes its MPP efforts primarily through its web pages, which are very successful in attracting visitors; through its publications, especially Geotimes; and through its Corporate Associates and Member Societies. Funding for the MPP has come from multiple sources over the past 30 years. Industry, non-profit organizations, and individuals have been the primary source of funding for graduate scholarships. The NSF has regularly funded the undergraduate scholarships. AGI Corporate Associates have contributed to both scholarship programs. The MPP Advisory Committee selects scholarship recipients based upon student academic performance, financial need, and potential for success as a geoscience professional. AGI currently has 29 MPP scholars, including 11 undergraduate and 18 graduate students. Undergraduate scholarships range from \\1000 to \\5000, with an average award of approximately \\2500. Graduate scholarships range from \\500 to \\4000, with an average award of approximately \\1300. In addition to financial assistance, every MPP scholar is assigned a professional geoscientist as a mentor. The mentor is responsible for regular personal contacts with MPP scholars, and with writing evaluation reports that are used to gauge the needs of the scholar, and to access the success of the overall program. The MPP Advisory Committee aims to match the profession of the mentor with the scholar's academic interest. Throughout the year, mentors and scholars communicate about possible opportunities in the geosciences such as internships, participation in symposia, professional society meetings, and job openings. Mentors have also been active in helping younger students cope with the major changes involved in relocating to a new region of the country or a new college culture. We believe that AGI is well positioned to advance diversity in the geosciences through its unique standing as the major professional organization in the geosciences. AGI maintains strong links to its professional Member Societies, state and federal agencies and funding programs, many with distinctive programs in the geoscience education. AGI Corporate Associates have consistently pledged to support diversity issues in geoscience education. Current plans include seeking funding for 48 undergraduate awards at \\2500 each and \\24,000 to support undergraduate travel to professional meetings. We also expect to increase the size of our graduate scholarship program to 30 students and raise an additional \\$30,000 to support graduate travel to professional meetings.

AstroCom NYC: A National Model for Urban Minority Engagement

NASA Astrophysics Data System (ADS)

Paglione, Timothy; Ford, Saavik; Robbins, Dennis; Mac Low, Mordecai-Mark; Agueros, Marcel A.

2016-01-01

AstroCom NYC is an undergraduate mentoring program designed to improve urban minority student access to opportunities in astrophysical research by greatly enhancing partnerships between research astronomers in New York City (City University of New York - an MSI, American Museum of Natural History, and Columbia). AstroCom NYC provides centralized, personalized mentoring as well as financial and academic support, to CUNY undergraduates throughout their studies, plus the resources and opportunities to further CUNY faculty research with students. The goal is that students' residency at AMNH helps them build a sense of belonging in the field, and readies and inspires them for graduate study. AstroCom NYC provides a rigorous Methods of Scientific Research course developed specifically to this purpose, a laptop, research and career mentors, outreach activities, scholarships and stipends, Metrocards, and regular assessment for maximum effectiveness. The goal of this support is to remove barriers to access and success. AMNH serves as the central hub for our faculty and students, who are otherwise dispersed among all five boroughs of the City. We welcomed our third and largest cohort last year, along with 13 additional students through a NASA community college initiative. We review plans for Year 4, when we expect all of our interns to compete for external summer REUs, and our growing participation and leadership within partner activities.

Research Experience for Undergrads with the Boulder Solar Alliance

NASA Astrophysics Data System (ADS)

Snow, M. A.; Raftery, C. L.

2017-12-01

The Research Experience for Undergraduates program operated by the Boulder Solar Alliance has just finished its eleventh year. Students from around the US come to Boulder, Colorado to work with a mentor in the field of solar and space physics. Mentors are drawn from all of the research institutes in Boulder. Students spend the first week getting acquianted with the interdisciplinary nature of the field and learning how to work collaboratively on a research project. We include several professional development activities at weekly brown bag lunches, and finally the students present their results in both oral and poster form.

The South Carolina Collaborative Undergraduate HBCU Student Summer Training Program

DTIC Science & Technology

2014-03-01

Trial Perceptions in a Predominantly African American Sample in South Carolina Ms. Jasmine Fox SC State University Dr. Victoria Findlay NIH/NCI...145 146 147 148 149 150 151 Jasmine Fox Mentor: Dr. Victoria Findlay Funding Source: NIH/NCI P20 South Carolina Cancer...Presentations and Honors GRE Status Graduate School Admission Ms. Jasmine Fox SC State University Mentor: Dr. Victoria Findlay Research Project: MiR

The application of embodied conversational agents for mentoring African American STEM doctoral students

NASA Astrophysics Data System (ADS)

Gosha, Kinnis

This dissertation presents the design, development and short-term evaluation of an embodied conversational agent designed to mentor human users. An embodied conversational agent (ECA) was created and programmed to mentor African American computer science majors on their decision to pursue graduate study in computing. Before constructing the ECA, previous research in the fields of embodied conversational agents, relational agents, mentorship, telementorship and successful mentoring programs and practices for African American graduate students were reviewed. A survey used to find areas of interest of the sample population. Experts were then interviewed to collect information on those areas of interest and a dialogue for the ECA was constructed based on the interview's transcripts. A between-group, mixed method experiment was conducted with 37 African American male undergraduate computer science majors where one group used the ECA mentor while the other group pursued mentoring advice from a human mentor. Results showed no significant difference between the ECA and human mentor when dealing with career mentoring functions. However, the human mentor was significantly better than the ECA mentor when addressing psychosocial mentoring functions.

Responsibilities of nursing schools with regard to peer mentoring.

PubMed

Botma, Yvonne; Hurter, Sarene; Kotze, Reneé

2013-08-01

This article reports on the postgraduate critical care students' mentoring of the third-year undergraduate nursing students during integrated work-based learning in the critical care units. The purpose of the research was to describe what the nursing school could do to improve this mentoring programme. A qualitative descriptive design was used. The nominal group technique was used to gather data from the mentors and mentees. Data from the groups were combined and qualitatively analysed into themes. Thereafter the themes were quantitatively ranked. The themes, ranking from the highest to the lowest, were orientation, organisation, mentoring process, characteristics of the mentor, and feedback to the mentor. Findings suggest that the nursing school does not always optimally support the mentoring programme. It is recommended that more than one communication medium be used to disperse information among role-players. Nursing schools should develop mentors, monitor their interactions with mentees and give them feedback on their mentoring skills. It is also the responsibility of the nursing school to select mentors that match the desired profile of mentors. Copyright © 2012 Elsevier Ltd. All rights reserved.

Relieving Career Anxiety and Indecision: The Role of Undergraduate Students' Perceived Control and Faculty Affiliations

ERIC Educational Resources Information Center

Daniels, Lia M.; Stewart, Tara L.; Stupnisky, Robert H.; Perry, Raymond P.; LoVerso, Tatiana

2011-01-01

As educators and mentors, we often focus on helping undergraduate students make career decisions. However, there is also value in helping alleviate career anxiety and indecision, both of which impede decision-making and are not automatically resolved once a decision is made. This research examined the role of individual differences (age, gender,…

Use of Social Media in Facilitating Health Care Research Among Nursing and Allied Health Undergraduates in Sri Lanka.

PubMed

Silva, S N

2016-01-01

A mentoring program was designed to promote conduction, completion and dissemination of undergraduate research among Nursing and Allied Health students in Sri Lanka. Several social media platforms were used; mainly the Facebook, YouTube and Google Hangouts. Knowledge sharing, interaction and collaboration were promoted. Student motivation was also done. Research presentation skills and applying for conferences was also facilitated. Over 90% of the participated 262 students completed a research project and close to 50% presented them both locally and internationally.

Mentoring Strategies and Outcomes of Two Federally Funded Cancer Research Training Programs for Underrepresented Students in the Biomedical Sciences.

PubMed

Ford, Marvella E; Abraham, Latecia M; Harrison, Anita L; Jefferson, Melanie S; Hazelton, Tonya R; Varner, Heidi; Cannady, Kimberly; Frichtel, Carla S; Bagasra, Omar; Davis, Leroy; Rivers, David E; Slaughter, Sabra C; Salley, Judith D

2016-06-01

The US is experiencing a severe shortage of underrepresented biomedical researchers. The purpose of this paper is to present two case examples of cancer research mentoring programs for underrepresented biomedical sciences students. The first case example is a National Institutes of Health/National Cancer Institute (NIH/NCI) P20 grant titled "South Carolina Cancer Disparities Research Center (SC CaDRe)" Training Program, contributing to an increase in the number of underrepresented students applying to graduate school by employing a triple-level mentoring strategy. Since 2011, three undergraduate and four graduate students have participated in the P20 SC CaDRe program. One graduate student published a peer-reviewed scientific paper. Two graduate students (50 %) have completed their master's degrees, and the other two graduate students will receive their degrees in spring 2015. Two undergraduate students (67 %) are enrolled in graduate or professional school (grad./prof. school), and the other graduate student is completing her final year of college. The second case example is a prostate cancer-focused Department of Defense grant titled "The SC Collaborative Undergraduate HBCU Student Summer Training Program," providing 24 students training since 2009. Additionally, 47 students made scientific presentations, and two students have published peer-reviewed scientific papers. All 24 students took a GRE test preparation course; 15 (63 %) have applied to graduate school, and 11 of them (73 %) are enrolled in grad./prof. school. Thirteen remaining students (54 %) are applying to grad./prof. school. Leveraged funding provided research-training opportunities to an additional 201 National Conference on Health Disparities Student Forum participants and to 937 Ernest E. Just Research Symposium participants at the Medical University of South Carolina.

What does it mean to be a mentor in medical education?

PubMed

Stenfors-Hayes, Terese; Hult, Håkan; Dahlgren, Lars Owe

2011-01-01

Mentor programmes are becoming increasingly common in undergraduate education. However, the meaning attached to being a mentor varies significantly. The aim of this study is to explore how teachers in medical and dental education understand their role as mentors. Twenty mentors in two different mentor programmes for undergraduate medical and dental students were interviewed. The transcripts were analysed using a phenomenographic approach. The findings comprise three qualitatively different ways of understanding what it means to be a mentor, which are described as: (1) a mentor is someone who can answer questions and give advice, (2) a mentor is someone who shares what it means to be a doctor/dentist, and (3) a mentor is someone who listens and stimulates reflection. The way the mentors understood their role also affected what they did as mentors, their relationships with their mentees and their perceived benefits as mentors. Being a mentor can be perceived in qualitatively different ways also within the same mentor programme. This understanding affects the mentors' actions, their relationships with their mentees and their perceived benefits of being a mentor. Awareness of one's own understanding is important in improving practices and the findings of this study can be used by mentors, teachers and educational developers to facilitate improved effectiveness in mentor programmes, both for mentors and mentees.

Introducing Research Methods to Undergraduate Majors Through an On-Campus Observatory with The University of Toledo's Ritter Observatory

NASA Astrophysics Data System (ADS)

Richardson, Noel; Hardegree-Ullman, Kevin; Bjorkman, Jon Eric; Bjorkman, Karen S.; Ritter Observing Team

2017-01-01

With a 1-m telescope on the University of Toledo (OH) main campus, we have initiated a grad student-undergraduate partnership to help teach the undergraduates observational methods and introduce them to research through peer mentorship. For the last 3 years, we have trained up to 21 undergraduates (primarily physics/astronomy majors) in a given academic semester, ranging from freshman to seniors. Various projects are currently being conducted by undergraduate students with guidance from graduate student mentors, including constructing three-color images, observations of transiting exoplanets, and determination of binary star orbits from echelle spectra. This academic year we initiated a large group research project to help students learn about the databases, journal repositories, and online observing tools astronomers use for day-to-day research. We discuss early inclusion in observational astronomy and research of these students and the impact it has on departmental retention, undergraduate involvement, and academic success.

Integrating undergraduate research into the electro-optics and laser engineering technology program at Indiana University of Pennsylvania

NASA Astrophysics Data System (ADS)

Zhou, Andrew F.

2014-07-01

Bringing research into an undergraduate curriculum is a proven and powerful practice with many educational benefits to students and the professional rewards to faculty mentors. In recent years, undergraduate research has gained national prominence as an effective problem-based learning strategy. Developing and sustaining a vibrant undergraduate research program of high quality and productivity is an outstanding example of the problem-based learning. To foster student understanding of the content learned in the classroom and nurture enduring problem-solving and critical-thinking abilities, we have created a collaborative learning environment by building research into the Electro-Optics curriculum for the first- and second-year students. The teaching methodology is described and examples of the research projects are given. Such a research-integrated curriculum effectively enhances student learning and critical thinking skills, and strengthens the research culture for the first- and second-year students.

Fostering research skills in undergraduate medical students through mentored students projects: example from an Indian medical school.

PubMed

Devi, V; Abraham, R R; Adiga, A; Ramnarayan, K; Kamath, A

2010-01-01

Healthcare decision-making is largely reliant on evidence-based medicine; building skills in scientific reasoning and thinking among medical students becomes an important part of medical education. Medical students in India have no formal path to becoming physicians, scientists or academicians. This study examines students' perceptions regarding research skills improvement after participating in the Mentored Student Project programme at Melaka Manipal Medical College, Manipal Campus, India. Additionally, this paper describes the initiatives taken for the continual improvement of the Mentored Student Project programme based on faculty and student perspectives. At Melaka Manipal Medical College, Mentored Student Project was implemented in the curriculum during second year of Bachelor of Medicine and Bachelor of Surgery programme with the intention of developing research skills essential to the career development of medical students. The study design was cross-sectional. To inculcate the spirit of team work students were grouped (n=3 to 5) and each group was asked to select a research project. The students' research projects were guided by their mentors. A questionnaire (Likert's five point scale) on students' perceptions regarding improvement in research skills after undertaking projects and guidance received from the mentor was administered to medical students after they had completed their Mentored Student Project. The responses of students were summarised using percentages. The median grade with inter-quartile range was reported for each item in the questionnaire. The median grade for all the items related to perceptions regarding improvement in research skills was 4 which reflected that the majority of the students felt that Mentored Student Project had improved their research skills. The problems encountered by the students during Mentored Student Project were related to time management for the Mentored Student Project and mentors. This study shows that students acknowledged that their research skills were improved after participating in the Mentored Student Project programme. The Mentored Student Project programme was successful in fostering positive attitudes among medical students towards scientific research. The present study also provides scope for further improvement of the Mentored Student Project programme based on students' and faculty perspectives.

Development and psychometric testing of the Carter Assessment of Critical Thinking in Midwifery (Preceptor/Mentor version).

PubMed

Carter, Amanda G; Creedy, Debra K; Sidebotham, Mary

2016-03-01

develop and test a tool designed for use by preceptors/mentors to assess undergraduate midwifery students׳ critical thinking in practice. a descriptive cohort design was used. participants worked in a range of maternity settings in Queensland, Australia. 106 midwifery clinicians who had acted in the role of preceptor for undergraduate midwifery students. this study followed a staged model for tool development recommended by DeVellis (2012). This included generation of items, content validity testing through mapping of draft items to critical thinking concepts and expert review, administration of items to a convenience sample of preceptors, and psychometric testing. A 24 item tool titled the XXXX Assessment of Critical Thinking in Midwifery (CACTiM) was completed by registered midwives in relation to students they had recently preceptored in the clinical environment. ratings by experts revealed a content validity index score of 0.97, representing good content validity. An evaluation of construct validity through factor analysis generated three factors: 'partnership in practice', 'reflection on practice' and 'practice improvements'. The scale demonstrated good internal reliability with a Cronbach alpha coefficient of 0.97. The mean total score for the CACTiM scale was 116.77 (SD=16.68) with a range of 60-144. Total and subscale scores correlated significantly. the CACTiM (Preceptor/Mentor version) was found to be a valid and reliable tool for use by preceptors to assess critical thinking in undergraduate midwifery students. given the importance of critical thinking skills for midwifery practice, mapping and assessing critical thinking development in students׳ practice across an undergraduate programme is vital. The CACTiM (Preceptor/Mentor version) has utility for clinical education, research and practice. The tool can inform and guide preceptors׳ assessment of students׳ critical thinking in practice. The availability of a reliable and valid tool can be used to research the development of critical thinking in practice. Crown Copyright © 2015. Published by Elsevier Ltd. All rights reserved.

Evaluation of a BSW Research Experience: Improving Student Research Competency

ERIC Educational Resources Information Center

Whipple, Ellen E.; Hughes, Anne; Bowden, Susan

2015-01-01

This article examines the experience of 24 BSW students in a faculty-mentored undergraduate research experience (URE) over the course of 1 academic year. In particular, we sought to better understand students' self-perceived sense of competency across 15 specific research skills. In addition, we examined the URE's impact on students' knowledge…

Faculty and Undergraduate Student Perceptions of an Integrated Mentoring Approach

ERIC Educational Resources Information Center

Livingstone, Nicola; Naismith, Nicola

2018-01-01

The role of an academic mentor is typically diverse, discipline specific and institutionally heterogeneous. Mentoring relationships are commonplace, yet the experience and delivery of mentoring in universities reflect a broad spectrum of approaches and execution. This article reflects on the pedagogic evolution of mentoring, examining the student…

Strengthening Self-efficacy through Supportive Mentoring

NASA Astrophysics Data System (ADS)

Haacker, R.

2015-12-01

The geosciences have had a chronic problem of underrepresentation of students from diverse ethnic, cultural, gender and socio-economic backgrounds. As a community we need to strengthen our support of young scientists from all backgrounds to sustain their enthusiasm and ensure their success in our field. Investing in mentoring programs that empower students and young professionals is one of the best ways to do so. The Significant Opportunities in Atmospheric Research and Science (SOARS) program, now entering its 20th year, has successfully developed and tested several mentoring models. The personalized, caring and consistent support is one of the key elements of the program's success; since its inception, 90% of SOARS participants have entered graduate school, research or science related careers after graduation. Many of our alumni who are now faculty apply the same mentoring strategies to build self-esteem and perseverance in their students. This presentation will cover the design and implementation of our four mentoring strategies, and provide insights on potential challenges, training aspects and impact assessment. The mentoring strategies include: 1) Multi-faceted, long-term mentoring of undergraduate and graduate students from diverse backgrounds. 2) Empowering advanced students to serve as peer mentors and role models. 3) Training faculty and professional scientists from all backgrounds to become mentors who are aware of diversity issues. 4) Providing mentor training for partner programs and laboratories. All four strategies have contributed to the creation of a mentoring culture in the geosciences.

Undergraduate Research Possibilities with a 0.6m Telescope

NASA Astrophysics Data System (ADS)

Carini, M. T.; Barnaby, D.; Gelderman, R.; Marchenko, S.; McGruder, C. H., III; Strolger, L.

2005-12-01

We present a discussion of the research projects that are being carried out by undergraduate students with the 0.6m telescope at the Bell Observatory, operated by Western Kentucky University. As a primarily undergraduate institution, our goal is to provide a meaningful undergraduate educational experience through both quality instruction and engagement of students in mentored research activities. Such activities not only enhance the student's educational experience, but also prepare them to be competitive in graduate school and/or the workplace. Using our modernized 0.6m telescope, our students pursue research projects which investigate a variety of astrophysically interesting problems: variability of Blazars, eclipsing binary stars, Gamma-ray burst identifications and follow up, photometric searches for extra-solar planets, supernova monitoring and survey programs, the relationship between morphological disturbances and activity in Seyfert nuclei, and variability in Wolf Rayet stars. We discuss the instrumentation, projects and results obtained by our undergraduate students, and the impact this has had on their undergraduate experience.

Peer Mentoring in Engineering: (Un)Shared Experience of Undergraduate Peer Mentors and Mentees

ERIC Educational Resources Information Center

Lim, Jae Hoon; MacLeod, Bailey P.; Tkacik, Peter T.; Dika, Sandra L.

2017-01-01

In this qualitative study, we explored the experiences of 26 engineering student mentors and mentees in a peer mentoring program. We found that mentors and mentees exploited the mentoring program's fluid structure and situated social relationships to enact a specific type of academic/professional goal and identity conducive to their entry to one…

Dual peer mentoring program for undergraduate medical students: exploring the perceptions of mentors and mentees

PubMed Central

Abdolalizadeh, Parya; Pourhassan, Saeed; Gandomkar, Roghayeh; Heidari, Farrokh; Sohrabpour, Amir Ali

2017-01-01

Background: Despite the advantages of dual peer mentoring, there are a few reports of implementing and evaluating such programs for medical students. This study aimed at exploring the perceptions of mentors and mentees about the dual peer mentoring program for the first year undergraduate medical students of Tehran University of Medical Sciences. Methods: This qualitative study was conducted at the end of the first year of implementing the mentoring program. All mentees and mentors were invited to participate in focus group discussions. Data were analyzed using a qualitative content analysis. Results: All mentors (n= 12) and a group of mentees (n= 21) participated in focus group discussion sessions. We provided a variety of supports for the mentees including academic and psychosocial support and positive relationship; as a result, some developments occurred to the mentors We also explored participants’ views on some unique aspects of the program such as student-authorized, dual mentoring, and role model sessions. Conclusion: Our participants found the mentoring program beneficial in various academic achievements and psychosocial supports for both the mentors and the mentees. Dual peer mentoring program can be an alternative to school administered programs. PMID:28638809

Dual peer mentoring program for undergraduate medical students: exploring the perceptions of mentors and mentees.

PubMed

Abdolalizadeh, Parya; Pourhassan, Saeed; Gandomkar, Roghayeh; Heidari, Farrokh; Sohrabpour, Amir Ali

2017-01-01

Background: Despite the advantages of dual peer mentoring, there are a few reports of implementing and evaluating such programs for medical students. This study aimed at exploring the perceptions of mentors and mentees about the dual peer mentoring program for the first year undergraduate medical students of Tehran University of Medical Sciences. Methods: This qualitative study was conducted at the end of the first year of implementing the mentoring program. All mentees and mentors were invited to participate in focus group discussions. Data were analyzed using a qualitative content analysis. Results: All mentors ( n= 12 ) and a group of mentees ( n= 21 ) participated in focus group discussion sessions. We provided a variety of supports for the mentees including academic and psychosocial support and positive relationship; as a result, some developments occurred to the mentors We also explored participants' views on some unique aspects of the program such as student-authorized, dual mentoring, and role model sessions. Conclusion: Our participants found the mentoring program beneficial in various academic achievements and psychosocial supports for both the mentors and the mentees. Dual peer mentoring program can be an alternative to school administered programs.

Effective Engineering Outreach through an Undergraduate Mentoring Team and Module Database

ERIC Educational Resources Information Center

Young, Colin; Butterfield, Anthony E.

2014-01-01

The rising need for engineers has led to increased interest in community outreach in engineering departments nationwide. We present a sustainable outreach model involving trained undergraduate mentors to build ties with K-12 teachers and students. An associated online module database of chemical engineering demonstrations, available to educators…

Frontiers of Crystallography: A Project-Based Research-Led Learning Exercise

ERIC Educational Resources Information Center

Wilson, Chick C.; Parkin, Andrew; Thomas, Lynne H.

2012-01-01

A highly interactive research-led learning session for chemistry undergraduates is described, which aims to lead students to an awareness of the applications of crystallography technique through a mentored hands-on crystal structure solution and refinement session. The research-based environment is inherent throughout the 4.5 h program and is…

AstroCom NYC: Equity, Inclusion, and the Next Generation of Astrophysicists

NASA Astrophysics Data System (ADS)

Paglione, Timothy; Ford, Saavik; Robbins, Dennis; Agueros, Marcel A.; Mac Low, Mordecai-Mark

2017-01-01

AstroCom NYC is an undergraduate mentoring program designed to improve urban minority student access to opportunities in astrophysical research by greatly enhancing partnerships between research astronomers in New York City (City University of New York - an MSI, American Museum of Natural History, and Columbia). AstroCom NYC provides centralized, personalized mentoring as well as financial and academic support, to CUNY undergraduates throughout their studies, plus the resources and opportunities to further CUNY faculty research with students. The goal is that students’ residency at AMNH helps them build a sense of belonging in the field, and readies and inspires them for graduate study. AstroCom NYC provides a rigorous Methods of Scientific Research course developed specifically to this purpose, a laptop, research and career mentors, outreach activities, scholarships and stipends, Metrocards, and regular assessment for maximum effectiveness. The goal of this support is to remove barriers to access and success. AMNH serves as the central hub for our faculty and students, who are otherwise dispersed among all five boroughs of the City. We welcomed our fourth cohort last year, along with 25 additional students through a NASA community college initiative. Our advanced AstroCom NYC students earned external summer internships at REU sites, and we had our first graduate school acceptance. We review plans for Year 5, when we have a number of graduate school applicants, and our deepening participation and leadership within partner activities.

Best Practices: The Neuroscience Program at Central Michigan University

PubMed Central

Dunbar, Gary L.

2015-01-01

The original design of our program at Central Michigan University (CMU) and its evolving curriculum were directly influenced by Faculty for Undergraduate (FUN) workshops at Davidson College, Oberlin College, Trinity College, and Macalester College. The course content, laboratory exercises, and pedagogy used were informed by excellent articles in the Journal of Undergraduate Neuroscience Education (JUNE) and presentations at these FUN workshops and meetings over the years. Like the program at Baldwin-Wallace College, which was a previous winner of the Undergraduate Neuroscience Program of the Year Award, as selected by the Committee on Neuroscience Departments and Programs (CNDP) of the Society for Neuroscience (SfN, our program stresses the importance of inquiry-based, hands-on research experience for our undergraduates and utilizes a peer-mentoring system. A distinct advantage that is employed at CMU is the use of graduate student mentors, which allows us to expand our peer-mentorship to distinct research teams that are focused on a specific research project. Developing our program was not easy. The present manuscript reviews the long and arduous journey (including ways in which we navigated some difficult internal political issues) we made to build a strong program. Hopefully, this description may prove helpful for other evolving programs, in terms of avoiding certain pitfalls and overcoming obstacles, as well as selecting practices that have proven to be successful at our institution. PMID:26240523

Prostate Cancer Research Training in Health Disparities for Undergraduates (PCaRT)

DTIC Science & Technology

2010-03-01

management Program Mentors Carlton Adams, M.D. LaMonica Stewart, Ph.D. Ben Ogunkua, M.D., Ph.D. Alphonse Pasipanodya, M.D. Jay Fowke, Ph.D., MPH...African-Americans Alphonse Pasipanodya, MD. (Primary Mentor) Flora A. M. Ukoli, MD., MPH. (Principal Investigator) Derrick Beech, M.D. (Co-PI...my goals is to be a successful black woman influencing and touching the lives of all those I come in contact with daily. Alphonse Pasipanodya

A Forest Science Effective Research Supervision in the Faculty of Forestry, Universiti Putra Malaysia

ERIC Educational Resources Information Center

Jusoff, Kamaruzaman; Silikon, Lebuh

2008-01-01

At least historically, undergraduate research supervision has predominantly been seen as part of the basic research function of academic staff. In many fields of study, success in research requires not only sophisticated experimental and analytical skills, but good mentoring and managerial skills as well. This paper presents an observational case…

The SUPER Program: A Research-based Undergraduate Experience

NASA Astrophysics Data System (ADS)

Ernakovich, J. G.; Boone, R. B.; Boot, C. M.; Denef, K.; Lavallee, J. M.; Moore, J. C.; Wallenstein, M. D.

2014-12-01

Producing undergraduates capable of broad, independent thinking is one of the grand challenges in science education. Experience-based learning, specifically hands-on research, is one mechanism for increasing students' ability to think critically. With this in mind, we created a two-semester long research program called SUPER (Skills for Undergraduate Participation in Ecological Research) aimed at teaching students to think like scientists and enhancing the student research experience through instruction and active-learning about the scientific method. Our aim was for students to gain knowledge, skills, and experience, and to conduct their own research. In the first semester, we hosted active-learning workshops on "Forming Hypotheses", "Experimental Design", "Collecting and Managing Data", "Analysis of Data", "Communicating to a Scientific Audience", "Reading Literature Effectively", and "Ethical Approaches". Each lesson was taught by different scientists from one of many ecological disciplines so that students were exposed to the variation in approach that scientists have. In the second semester, students paired with a scientific mentor and began doing research. To ensure the continued growth of the undergraduate researcher, we continued the active-learning workshops and the students attended meetings with their mentors. Thus, the students gained technical and cognitive skills in parallel, enabling them to understand both "the how" and "the why" of what they were doing in their research. The program culminated with a research poster session presented by the students. The interest in the program has grown beyond our expectations, and we have now run the program successfully for two years. Many of the students have gone on to campus research jobs, internships and graduate school, and have attributed part of their success in obtaining their positions to their experience with the SUPER program. Although common in other sciences, undergraduate research experiences are rare in ecology. We feel that development and implementation of these types of active-learning, research based programs can help universities to produce undergraduate researchers capable of contributing meaningfully to research, and to greater societal issues by enhancing their problem solving and critical thinking skills.

Advancing Space Sciences through Undergraduate Research Experiences at UC Berkeley's Space Sciences Laboratory - a novel approach to undergraduate internships for first generation community college students

NASA Astrophysics Data System (ADS)

Raftery, C. L.; Davis, H. B.; Peticolas, L. M.; Paglierani, R.

2015-12-01

The Space Sciences Laboratory at UC Berkeley launched an NSF-funded Research Experience for Undergraduates (REU) program in the summer of 2015. The "Advancing Space Sciences through Undergraduate Research Experiences" (ASSURE) program recruited heavily from local community colleges and universities, and provided a multi-tiered mentorship program for students in the fields of space science and engineering. The program was focussed on providing a supportive environment for 2nd and 3rd year undergraduates, many of whom were first generation and underrepresented students. This model provides three levels of mentorship support for the participating interns: 1) the primary research advisor provides academic and professional support. 2) The program coordinator, who meets with the interns multiple times per week, provides personal support and helps the interns to assimilate into the highly competitive environment of the research laboratory. 3) Returning undergraduate interns provided peer support and guidance to the new cohort of students. The impacts of this program on the first generation students and the research mentors, as well as the lessons learned will be discussed.

USC Undergraduate Team Research, Geological Field Experience and Outdoor Education in the Tuolumne Batholith and Kings Canyon, High Sierra Nevada

NASA Astrophysics Data System (ADS)

Culbert, K. N.; Anderson, J. L.; Cao, W.; Chang, J.; Ehret, P.; Enriquez, M.; Gross, M. B.; Gelbach, L. B.; Hardy, J.; Paterson, S. R.; Ianno, A.; Iannone, M.; Memeti, V.; Morris, M.; Lodewyk, J.; Davis, J.; Stanley, R.; van Guilder, E.; Whitesides, A. S.; Zhang, T.

2009-12-01

Within four years, USC’s College of Letters, Arts and Sciences and Earth Science department have successfully launched the revolutionary undergraduate team research (UTR) program “Geologic Wonders of Yosemite at Two Miles High”. A diverse group of professors, graduate students and undergraduates spent two weeks mapping the Boyden Cave in Kings Canyon National Park, the Iron Mountain pendants south of Yosemite, the Western Metamorphic belt along the Merced River, and the Tuolumne Batholith (TB) in June and August 2009. During their experience in the field, the undergraduates learned geologic field techniques from their peers, professors, and experienced graduate students and developed ideas that will form the basis of the independent and group research projects. Apart from teaching undergraduates about the geology of the TB and Kings Canyon, the two weeks in the field were also rigorous exercise in critical thinking and communication. Every day spent in the field required complete cooperation between mentors and undergraduates in order to successfully gather and interpret the day’s data. Undergraduates were to execute the next day’s schedule and divide mapping duties among themselves. The two-week field experience was also the ideal setting in which to learn about the environmental impacts of their work and the actions of others. The UTR groups quickly adapted to the demanding conditions of the High Sierra—snow, grizzly bears, tourists, and all. For many of the undergraduates, the two weeks spent in the field was their first experience with field geology. The vast differences in geological experience among the undergraduates proved to be advantageous to the ‘team-teaching’ focus of the program: more experienced undergraduates were able to assist less experienced undergraduates while cementing their own previously gained knowledge about geology. Over the rest of the academic year, undergraduates will learn about the research process and scientific writing in a semester-long research methods class. Throughout the class, undergraduates will apply their skills as they write proposals, abstracts and develop their own research projects. Many undergraduates in the program have been awarded university-wide grants to cover program-related expenses, and will continue to submit proposals for competitive grants. Students are also encouraged to interact with other faculty, encouraging future inter-university interaction between the three universities. With the help of their mentors, the groups will construct a comprehensive geological map of the TB and Kings Canyon and contribute to a growing pool of data collected by past groups.

The learning experiences of mentees and mentors in a nursing school's mentoring programme.

PubMed

Joubert, Annemarie; de Villiers, Johanna

2015-03-24

A School of Nursing supports third-year undergraduate students (mentees) by means of a mentoring programme in which critical-care nursing students (mentors) are involved. However, the programme designers needed to find out what gaps were evident in the programme. The objectives of the study were to explore and describe the learning experiences of the mentees and mentors and to obtain recommendations for improving the programme. An action-research method was used to develop and to refine the student-mentoring programme and to identify student needs. However, for the purposes of this article a descriptive design was selected and data were gathered by means of a nominal-group technique. Fourteen mentees and five mentors participated in the research. The findings indicated that attention should be paid to the allocation and orientation of both mentors and mentees. Amongst the positive experiences was the fact that the mentees were reassured by the mentor's presence and that a relationship of trust developed between them. In consequence, the mentees developed critical thinking skills, were able to apply their knowledge and improved their ability to integrate theory and practice. Not only did the mentees gain respect for the mentors' knowledge and competence, but they also lauded the mentoring programme as a memorable and vital experience. The findings indicated that several changes would be needed to improve the structure of the mentoring programme before a new group of mentees could be placed in critical-care units.

"The Most Defining Experience": Undergraduate University Students' Experiences Mentoring Students with Intellectual and Developmental Disabilities

ERIC Educational Resources Information Center

Ryan, Susan M.; Nauheimer, Jeanne M.; George, Cassandra L.; Dague, E. Bryan

2017-01-01

In this three-year qualitative study we investigated the experiences and perspectives of university undergraduate students who were peer mentors for students with intellectual and developmental disabilities (ID/DD) in a postsecondary education certificate program at a public university in the northeastern United States. The findings were…

Mentoring Matters: Racial Ethnic Minority Undergraduates' Cultural Fit, Mentorship, and College and Life Satisfaction

ERIC Educational Resources Information Center

Castellanos, Jeanett; Gloria, Alberta M.; Besson, Doriane; Clark Harvey, Le Ondra

2016-01-01

This study examined the degree to which cultural fit (cultural congruity in combination with perception of the university environment) and the dimensional noncognitive processes of mentoring predicted college satisfaction and life satisfaction for 238 racial and ethnic minority undergraduates from two university contexts. Group differences as well…

Value of Undergraduate Internship Experiences at NOAA: Analysis of Survey Results

NASA Astrophysics Data System (ADS)

Kaplan, M.

2014-12-01

This presentation will examine survey data from over 500 undergraduates who participated in summer internships at NOAA facilities as Ernest F. Hollings Scholars and Educational Partnership Program (EPP) Undergraduate Scholars. NOAA selects over 100 students per year to receive academic support in their junior and senior years and a paid summer internship at any NOAA facility in the country. Scholars are hosted by NOAA mentors who actively oversee summer research activities. Analysis of survey results identified six thematic impacts from the internship experience (McIntosh and Baek, 2013).

E-Mentoring: Technology, Trust, and Frequency in Corporate E-Mentoring Relationships

ERIC Educational Resources Information Center

Godwin, Shannon G.

2011-01-01

Electronic mentoring through asynchronous methods using technologies such as e-mail or the Internet is used in the education industry whereby undergraduate and graduate students can be matched with either university professors or career professionals. However, corporate organizations with mentoring initiatives predominantly use traditional…

Exploring Mentors' Perceptions of Mentees and the Mentoring Relationship in a Multicultural Service-Learning Context

ERIC Educational Resources Information Center

Lee, Jenny J.; Bell, Lydia F.; Shaulskiy, Stephanie Levitt

2017-01-01

This study examined undergraduate students' approaches to service learning based on their perceptions as mentors. As part of a university multicultural service-learning program, mentors met regularly with assigned mentees in low-income middle schools to promote college participation. Based on an analysis of mentors' written reflections about their…

The role of the faculty mentor to the REU experience: insights from an international REU

NASA Astrophysics Data System (ADS)

Houser, C.; Cahill, A. T.; Lemmons, K.

2012-12-01

The Texas A&M REU in Costa Rica provides students with an opportunity to participate in research on the ecohydrology of a tropical pre-montane forest. The international and field components of this program require both that students to work in research clusters of several faculty and students, and that each of the clusters contribute to a primary research question of closing the water budget for a small watershed. Specifically, students and faculty participate in precipitation (P), evapotranspiration (E), hydrology (Q) or subsurface storage (DS) research clusters. It is argued that having the students at a central research station location and focusing their research on a common research problem is an important aspect of an international REU program to avoid a feeling of isolation and to ensure that the students remain safe in their research and during their free time. However, this shared experience and research question can highlight differences among the faculty mentors and make the students evaluate their individual experience more critically. To better understand the relationship between the REU student and their faculty mentor(s), we have been conducting pre- and post-surveys, interviews, and focus groups to understand their experience in the REU and the manner in which the faculty mentor can affect that experience and the desire to continue in research. Results of the pre-trip survey suggest that the undergraduate students are most concerned about their projects and show little no concern about the faculty mentor with whom they will be completing their research. Post-trip results from 2011 and 2012 suggest that mentors had a much greater impact on the experience than expected. Many students said that their future research/graduate school plans were significantly affected by their REU mentor relationship. One student said that by working closely with mentors, "you know that what you are doing and learning is pertinent because you are learning it from actual researchers." The overall results suggest that the student-to-mentor relationship created through these authentic experiences is highly influential in either encouraging or discouraging students to conduct future research and/or attend graduate school.

The effectiveness of peer mentoring in promoting a positive transition to higher education for first-year undergraduate students: a mixed methods systematic review protocol.

PubMed

Carragher, Jean; McGaughey, Jennifer

2016-04-22

The global transfer of nursing and midwifery education to higher education institutes has led to student nurses and midwives experiencing challenges previously faced by traditional third-level students, including isolation, loneliness, financial difficulties and academic pressure. These challenges can contribute to increased stress and anxiety levels which may be detrimental to the successful transition to higher education, thus leading to an increase in attrition rates. Peer mentoring as an intervention has been suggested to be effective in supporting students in the transition to third-level education through enhancing a sense of belongingness and improving student satisfaction, engagement and retention rates. This proposed systematic review aims to determine the effectiveness of peer mentoring in enhancing levels of student engagement, sense of belonging and overall satisfaction of first-year undergraduate students following transition into higher education. MEDLINE, Web of Knowledge, ProQuest, Embase, CINAHL, ERIC, PsycINFO and CENTRAL databases will be searched for qualitative, quantitative and mixed methods studies on the implementation of peer assessment strategies in higher education institutes (HEIs) or universities for full-time, first-year adult students (>17 years). Included studies will be limited to the English language. The quality of included studies will be assessed using a validated Mixed Methods Appraisal Tool (MMAT). The findings will be presented as a narrative synthesis or meta-analysis as appropriate following sequential explanatory synthesis. The review will provide clear, non-biased evidence-based guidance to all third-level educators on the effectiveness of peer-mentoring programmes for first-year undergraduates. The review is necessary to help establish which type of peer mentoring is most effective. The evidence from qualitative and quantitative studies drawn from the international literature will be utilised to illustrate the best way to implement and evaluate peer mentoring as an effective intervention and will be useful in guiding future research and practice in this area. These findings may be applied internationally across all disciplines.

The Polaris Project: Undergraduate Research Catalyzing Advances in Arctic Science

NASA Astrophysics Data System (ADS)

Schade, J. D.; Holmes, R. M.; Natali, S.; Mann, P. J.; Bunn, A. G.; Frey, K. E.

2017-12-01

With guidance and sufficient resources, undergraduates can drive the exploration of new research directions, lead high impact scientific products, and effectively communicate the value of science to the public. As mentors, we must recognize the strong contribution undergraduates make to the advancement of scientific understanding and their unique ability and desire to be transdisciplinary and to translate ideas into action. Our job is to be sure students have the resources and tools to successfully explore questions that they care about, not to provide or lead them towards answers we already have. The central goal of the Polaris Project is to advance understanding of climate change in the Arctic through an integrated research, training, and outreach program that has at its heart a research expedition for undergraduates to a remote field station in the Arctic. Our integrative approach to training provides undergraduates with strong intellectual development and they bring fresh perspectives, creativity, and a unique willingness to take risks on new ideas that have an energizing effect on research and outreach. Since the projects inception in summer 2008, we have had >90 undergraduates participate in high-impact field expeditions and outreach activities. Over the years, we have also been fortunate enough to attract an ethnically, racially, and culturally diverse group of students, including students from Puerto Rico, Hispanic-, African- and Native-Americans, members of the LGBT community, and first-generation college students. Most of these students have since pursued graduate degrees in ecology, and many have received NSF fellowships and Fulbright scholarships. One of our major goals is to increase the diversity of the scientific community, and we have been successful in our short-term goal of recruiting and retaining a diverse group of students. The goal of this presentation is to provide a description of the mentoring model at the heart of the Polaris Project, share narratives to highlight student research and outreach activities, and summarize the impact these experiences have had on our students over the years. We hope that sharing our perspective will spur a wider conversation on the role of a diverse group of undergraduate researchers as catalysts of both scientific advancement and effective communication.

Collaboration and Virtual Mentoring: Building Relationships between Pre-Service and In-Service Special Education Teachers.

ERIC Educational Resources Information Center

Seabrooks, Janice J.; Kenney, Stephanie; LaMontagne, Maggie

2000-01-01

Explored the impact of mentoring via the Internet within two special education teacher preparation programs in which graduate students mentored undergraduate students. Data from pre- and post-intervention surveys, Internet interactions, and video conferencing indicated that participants considered Internet mentoring a positive experience that…

Developing Mentors: Adult participation, practices, and learning in an out-of-school time STEM program

NASA Astrophysics Data System (ADS)

Scipio, Deana Aeolani

This dissertation examines learning within an out-of-school time (OST) Science, Technology, Engineering, and Mathematics (STEM) broadening participation program. The dissertation includes an introduction, three empirical chapters (written as individual articles), and a conclusion. The dissertation context is a chemical oceanography OST program for middle school students called Project COOL---Chemical Oceanography Outside the Lab. The program was a collaboration between middle school OST programming, a learning sciences research laboratory, and a chemical oceanography laboratory. Both labs were located at a research-based university in the Pacific Northwest of the United States. Participants include 34 youth, 12 undergraduates, and five professional scientists. The dissertation data corpus includes six years of ethnographic field notes across three field sites, 400 hours of video and audio recordings, 40 hours of semi-structured interviews, and more than 100 participant generated artifacts. Analysis methods include comparative case analysis, cognitive mapping, semiotic cluster analysis, video interaction analysis, and discourse analysis. The first empirical article focuses on synthesizing productive programmatic features from four years of design-based research.. The second article is a comparative case study of three STEM mentors from non-dominant communities in the 2011 COOL OST Program. The third article is a comparative case study of undergraduates learning to be mentors in the 2014 COOL OST Program. Findings introduce Deep Hanging as a theory of learning in practice. Deep Hanging entails authentic tasks in rich contexts, providing access, capitalizing on opportunity, and building interpersonal relationships. Taken together, these three chapters illuminate the process of designing a rich OST learning environment and the kinds of learning in practice that occurred for adult learners learning to be mentors through their participation in the COOL OST program. In the conclusion, I offer a set of design principles for mentor learning gleaned from empirical findings from the last two empirical chapters on how mentors can productively support the science learning of youth. The findings from this dissertation offer implications for designers of learning environments seeking to leverage experts for mentoring while engaging youth in contemporary science practices in order to broaden participation for youth and adult participants from non-dominant communities in STEM disciplines.

Best Practices at the Lamont-Doherty Earth Observatory (LDEO) REU Site

NASA Astrophysics Data System (ADS)

Abbott, D. H.

2014-12-01

At the LDEO REU site, we take student health and safety very seriously. In 2014, we gave the students training on laboratory safety, fire safety, and a Title IX orientation covering discrimination and sexual harassment. We also compile emergency contact information for all the students and distribute it to students, mentors and the administration. Students choose a research project and mentors then pick the best student for their project. Because the mentors choose the student, they are more invested in the student. Students and mentors are encouraged to interact before the program starts, both through discussions and assigned background reading. During these discussions, research projects are often modified to better-fit students interests and skill levels. During the program, we facilitate student-mentor interaction by conducting three research-focusing sessions with small groups of students. Students give 20-minute long oral presentations on the progress of their research and answer questions about their project. Mentors prepare the students for these sessions, thereby increasing student knowledge about their research project. Mid-way through the summer, students write a 3-page proposal about their research as part of a special seminar on scientific writing. The students also participate in a final poster session that is attended by the LDEO community. We maximize student engagement by giving students a choice of research projects that are specifically selected for their suitability for and interest among undergraduates. The track record of mentors is also considered. Mentors must be in residence at LDEO during most of the intern program and arrange a suitable co-mentor during any absences. Mentors must be individuals who are able to encourage the students while giving them constructive input on the progress of their research project. We also encourage students to present their research results at a national scientific meeting. Students and mentors are given a schedule at the start of the summer that includes the abstract deadlines for major national meetings. When it is possible, we fund each student's attendance of a national meeting. Enthusiastic students who wish to attend a second meeting are given information on how to apply for funding to support attendance.

An innovative Near-Peer Mentoring Model for Undergraduate and Secondary Students: STEM Focus

DTIC Science & Technology

2014-03-14

searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection of information. Send comments...568 Doughten Drive,Fort Detrick,MD,21702-5010 8. PERFORMING ORGANIZATION REPORT NUMBER N /A 9. SPONSORING/MONITORING AGENCY NAME(S) AND ADDRESS(ES...applications, research background, experience with youth, and interviews. They ranged in age from 18 to 25 (M = 21) and were either undergraduate ( n = 7

Latina/o Undergraduate Students Mentoring Latina/o Elementary Students: A Borderlands Analysis of Shifting Identities and First-Year Experiences

ERIC Educational Resources Information Center

Bernal, Dolores Delgado; Aleman, Enrique, Jr.; Garavito, Andrea

2009-01-01

This article examines the experiences of first-year Latina/o undergraduates at a predominantly white institution. Through a borderlands analysis, the authors explore how these students describe their experiences participating in an ethnic studies course and mentoring Latina/o elementary schoolchildren. The authors find that these experiences…

A Community of Scientists and Educators: The Compass Project at UC Berkeley

NASA Astrophysics Data System (ADS)

Roth, Nathaniel; Schwab, Josiah

2016-01-01

The Berkeley Compass Project is a self-formed group of graduate and undergraduate students in the physical sciences at the University of California, Berkeley. Its goals are to improve undergraduate physics education, provide opportunities for professional development, and increase retention of students from populations underrepresented in the physical sciences. For undergraduate students, the core Compass experience consists of a summer program and several seminar courses. These programs are designed to foster a diverse, collaborative student community in which students engage in authentic research practices and regular self-reflection. Graduate students, together with upper-level undergraduates, design and run all Compass programs. Compass strives to incorporate best practices from the science education literature. Experiences in Compass leave participants poised to be successful students researchers, teachers, and mentors.

Supporting student skill development in undergraduate research experiences through the development of a self-reflection guide

NASA Astrophysics Data System (ADS)

Hubenthal, M.; Brudzinski, M.

2016-12-01

There has been an increased emphasis on documenting the benefits of participating in undergraduate research opportunities (URO) and developing an understanding of the factors that influence these benefits. While tools to effectively measure the behavior, attitude, skills, interest, and/or knowledge (BASIK) that result from UROs have matured, little focus has been placed on developing practical tools and strategies to support students and mentors as they work to develop the BASIK being measured. Viewed through the lens of constructivism, a URO can be examined as a cognitive apprenticeship (CA) where learning occurs through several key methods: modeling, coaching, scaffolding, articulation, reflection, and exploration. In a study of UROs as CA, Feldman et al., (2013) found reflection to be one of the least commonly initiated methods employed by interns and mentors, and concluded, "there is need for professors to be more proactive in helping their students gain intellectual proficiency". This work, in its pilot stages, seeks to address this gap through the development of an intern self-reflection guide and implementation plan to further increase students' skill development. The guide is being developed based on IRIS's existing self-reflection tool. However, it has recently been revised to bring its constructs and items into better alignment with those of the Undergraduate Research Student Self-Assessment (URSSA) tool. The URSSA was selected because it is designed to measure skills and has recently undergone a validation study. In addition, it serves as the basis for the development of a new tool, the NSF Biology REU CORE. The revised self-reflection guide and protocol were piloted this summer in IRIS Summer REU program. The alignment between the constructs of the URSSA and the self-reflection guide will be presented along with findings from the 2016 program evaluation. Future development of the intervention will include a validation of the items on the self-reflection guide as well as the development of additional guidance for the mentors about the implementation process. Feldman, A., Divoll, K. A., & Rogan-Klyve, A. (2013). Becoming Researchers: The Participation of Undergraduate and Graduate Students in Scientific Research Groups. Science Education, 97(2), 218-243.

Serving Community College Students: Student Preparation, Development and Growth through the REU Experience

NASA Astrophysics Data System (ADS)

Kim, C. S.; Osborn, J.; Smith, M.

2014-12-01

Effectively recruiting and engaging community college students in STEM research experiences is an increasingly important goal of the NSF but has not historically been the primary focus of most NSF-REU Site programs. The Summer Undergraduate Research Fellowship in Earth and Environmental Sciences (SURFEES) program at Chapman University, a primarily undergraduate institution in Southern California, is the site of the first NSF-REU program in the NSF's Division of Earth Sciences that selects participants exclusively from local partnering community colleges. Building on and now running parallel with a successful internally-funded summer research program already in place and available only to Chapman undergraduates, the SURFEES program incorporates specific mentor and participant pre-experience training, pre-, mid-, and post-assessment instruments, and programming targeted to the earth and environmental sciences as well as to community college students. Perhaps most importantly, the application, selection and pairing of student participants with faculty mentors was conducted with specific goals of identifying those applicants with the greatest potential for a transformative experience while also meeting self-defined targets of under-represented minority, female, and low-income participants. Initial assessment results of the first participant cohort from summer 2014 and lessons learned for creating/adapting an NSF-REU site to involve community college students will be discussed.

Using action research to build mentor capacity to improve orientation and quality of nursing students' aged care placements: what to do when the phone rings.

PubMed

Lea, Emma J; Andrews, Sharon; Stronach, Megan; Marlow, Annette; Robinson, Andrew L

2017-07-01

To describe whether an action research approach can be used to build capacity of residential aged care facility staff to support undergraduate nursing students' clinical placements in residential aged care facilities, using development of an orientation programme as an exemplar. Aged care facilities are unpopular sites for nursing students' clinical placements. A contributing factor is the limited capacity of staff to provide students with a positive placement experience. Strategies to build mentor capability to shape student placements and support learning and teaching are critical if nursing students are to have positive placements that attract them to aged care after graduation, an imperative given the increasing care needs of the ageing population worldwide. Action research approach employing mixed-methods data collection (primarily qualitative with a quantitative component). Aged care facility staff (n = 32) formed a mentor group at each of two Tasmanian facilities and met regularly to support undergraduate nursing students (n = 40) during placements. Group members planned, enacted, reviewed and reflected on orientation procedures to welcome students, familiarise them with the facility and prepare them for their placement. Data comprised transcripts from these and parallel student meetings, and orientation data from student questionnaires from two successive placement periods (2011/2012). Problems were identified in the orientation processes for the initial student placements. Mentors implemented a revised orientation programme. Evaluation demonstrated improved programme outcomes for students regarding knowledge of facility operations, their responsibilities and emergency procedures. Action research provides an effective approach to engage aged care facility staff to build their capacity to support clinical placements. Building capacity in the aged care workforce is vital to provide appropriate care for residents with increasing care needs. © 2016 John Wiley & Sons Ltd.

Mentoring Through Research as a Catalyst for the Success of Under-represented Minority Students in the Geosciences at California State University Northridge

NASA Astrophysics Data System (ADS)

Marsaglia, K. M.; Pedone, V.; Simila, G. W.; Yule, J. D.

2002-12-01

The Catalyst Program of the Department of Geological Sciences at California State University Northridge has been developed by four faculty members who were the recipients of a three-year award (2002-2005) from the National Science Foundation. The goal of the program is to increase minority participation and success in the geosciences. The program seeks to enrich the educational experience by introducing students at all levels to research in the geosciences and to decrease obstacles that affect academic success. Both these goals are largely achieved by the formation of integrated high school, undergraduate, and graduate research groups, which also provide fulfilling and successful peer mentorship. The Catalyst Program provides significant financial support to participants to allow them to focus their time on their education. New participants first complete a specially designed course that introduces them to peer-mentoring, collaborative learning, and geological research. Students of all experience levels then become members of research teams, which deepens academic and research skills as well as peer-mentor relationships. The program was highly successful in its inaugural year. To date, undergraduates and graduate students in the program coauthored six abstracts at professional meetings and one conference paper. High-school students gained first hand experience of a college course and geologic research. Perhaps the most important impacts of the program are the close camaraderie that has developed and the increased ability of the Catalyst students to plan and execute research with greater confidence and self-esteem.

Short-term outcomes of a program developed to inculcate research essentials in undergraduate medical students

PubMed Central

Devi, V; Ramnarayan, K; Abraham, RR; Pallath, V; Kamath, A; Kodidela, S

2015-01-01

Background: Participation in research during undergraduate studies may increase students’ interest in research and inculcate research essentials in them. Aims: The purpose of this study was to evaluate the effectiveness of the mentored student project (MSP) program. Settings and Design: In the MSP program, students in groups (n = 3 to 5) undertook a research project, wrote a scholarly report, and presented the work as a poster presentation with the help of a faculty mentor. To begin with, the logic model of the program was developed to identify short-term outcomes of the program on students, mentors, and the institution. A quasi-experimental design was used to measure the outcomes. Materials and Methods: A mixed method evaluation was done using a newly-developed questionnaire to assess the impact of the MSP on students’ attitude, a multiple-choice question (MCQs) test to find out the impact on students’ knowledge and grading of students’ project reports and posters along with a survey to check the impact on skills. Students’ satisfaction regarding the program and mentors’ perceptions were collected using questionnaires. Evidence for validity was collected for all the instruments used for the evaluation. Statistical Analysis: Non-parametric tests were used to analyze data. Based on the scores, project reports and posters were graded into A (>70% marks), B (60-69% marks), and C (<59% marks) categories. The number of MSPs that resulted in publications, conference presentation and departmental collaborations were taken as impact on the institution. Results: Students’ response rate was 91.5%. The students’ attitudes regarding research changed positively (P = 0.036) and score in the MCQ test improved (P < 0.001) after undertaking MSP. Majority of project reports and posters were of grade A category. The majority of the items related to skills gained and satisfaction had a median score of 4. The MSPs resulted in inter-departmental and inter-institutional collaborations, 14 publications and 15 conference presentations. An area for improvement noted was to have the MSP implemented in the curriculum without increasing students’ overall workload and stress. Conclusion: The study identified strengths and weaknesses of the MSP program. Our model of undergraduate research project may be incorporated in undergraduate medical programs to foster positive attitude and knowledge base about scientific research and to instil research skills among students. PMID:26119435

Preparation and participation of undergraduate students to inform culturally sensitive research.

PubMed

Wells, Jo Nell; Cagle, Carolyn Spence

2009-07-01

Most student work as research assistants occurs at the graduate level of nursing education, and little is known about the role of undergraduate students as research assistants (RAs) in major research projects. Based on our desire to study Mexican American (MA) cancer caregivers, we needed bilingual and bicultural RAs to serve as data collectors with women who spoke Spanish and possessed cultural beliefs that influenced their caregiving. Following successful recruitment, orientation, and mentoring based on Bandura's social learning theory [Bandura, A., 2001. Social learning theory: an agentic perspective. Annual Review of Psychology 52, 1-26] and accepted teaching-learning principles, RAs engaged in various behaviors that facilitated study outcomes. Faculty researchers, RAs, and study participants benefitted greatly from the undergraduate student involvement in this project. This article describes successful student inclusion approaches, ongoing faculty-RA interactions, and lessons learned from the research team experience. Guidelines discussed support the potential for making the undergraduate RA role a useful and unique learning experience.

Peer Mentoring in a University Music Methods Class

ERIC Educational Resources Information Center

Goodrich, Andrew; Bucura, Elizabeth; Stauffer, Sandra

2018-01-01

The purpose of this study was to investigate undergraduates' perceptions of peer mentoring and the impact of peer mentoring in a music teacher preparation course. The following questions were included: What knowledge and abilities do students bring to the peer mentoring process? How do students perceive their roles as teachers and learners in the…

Protege Growth Themes Emergent in a Holistic, Undergraduate Peer-Mentoring Experience

ERIC Educational Resources Information Center

Ward, Elijah G.; Thomas, Earl E.; Disch, William B.

2012-01-01

Two faculty members developed and implemented a successful, holistic, goal-oriented peer-mentoring project for two years at a midsize, urban university to enhance student success and retention. In year one, 12 juniors and seniors mentored 34 freshmen and sophomores; in year two, 14 upperclassmen mentored 40 underclassmen. A grounded theory…

Online Mentoring for Hispanic Female Pre-Service Teachers: Perceptions of Use and Performance Changes

ERIC Educational Resources Information Center

Ainsa, Patricia; Olivarez, Arturo

2017-01-01

Mentoring sixty-three undergraduate students online yielded information through distance learning discussion to provide changes by improving the delivery and learning acquisition of new skills in online education. Responses from mentors and mentees having used and experienced various mentoring techniques were analyzed and results further indicated…

Mentoring Partnerships in a Community Technology Centre: A Constructionist Approach for Fostering Equitable Service Learning

ERIC Educational Resources Information Center

Kafai, Yasmin B.; Desai, Shiv; Peppler, Kylie A.; Chiu, Grace M.; Moya, Jesse

2008-01-01

Mentoring programmes have gained increasing popularity in institutions of higher education to support undergraduates in community service or outreach efforts. Many of these programmes partner mentors with inner-city youth, providing assistance in underserved communities while mentors gain experiences that connect theory and practice. Here we…

Rationale and Initial Design for a Virtual Undergraduate Internship in Astronomy

NASA Astrophysics Data System (ADS)

Berryhill, Katie; Slater, T. F.; Slater, S. J.

2012-01-01

In recent decades, research experiences for undergraduates (REUs) programs have provided students with opportunities to spend a summer working on a research project with a faculty mentor. The aim of these programs has generally been to take up the challenge of the Boyer-2 report to introduce research-based learning into the undergraduate experience (Boyer 1998). Recent efforts have been aimed at encouraging women and underrepresented minorities to pursue STEM careers. With the advent of successful models for online degree programs that can add to the STEM workforce pipeline, there is now the possibility of expanding these research experiences to include the new diverse demographic of previously untapped online learners. Many online learners are working adults, and therefore do not have the same flexibility as traditional undergraduates to attend a summer REU at another institution, nor do they have the opportunity for internships at their home institution. This project is intended to leverage significant developments in rapidly emerging social media; investments in Internet-accessible telescopes for professional and amateur use; and contemporary advances in the learning sciences to build pathways through long-term, collaborative, astronomy research projects. The first stage involves developing initial research protocols and online mentoring infrastructures for establishing an ongoing national program for virtual astronomy internships for undergraduate STEM majors. Underlying this project is a plan for students to work collaboratively alongside active professional and amateur astronomers to conduct original research using remotely controlled and robotic telescopes. We anticipate that by the start of this project, more than 100 robotic and remotely controlled telescopes will exist around the world (mo-www.harvard.edu/OWN, aavso.org/aavsonet, and lcogt.net among others) providing continuous world-wide coverage. We plan to test and iteratively build a successful infrastructure for students to take advantage of these and other rapidly emerging resources and support an expansion of the STEM career workforce.

Research Ethics with Undergraduates in Summer Research Training Programs

NASA Astrophysics Data System (ADS)

Cheung, I.; Yalcin, K.

2016-02-01

Many undergraduate research training programs incorporate research ethics into their programs and some are required. Engaging students in conversations around challenging topics such as conflict of interest, cultural and gender biases, what is science and what is normative science can difficult in newly formed student cohorts. In addition, discussing topics with more distant impacts such as science and policy, intellectual property and authorship, can be difficult for students in their first research experience that have more immediate concerns about plagiarism, data manipulation, and the student/faculty relationship. Oregon State University's Research Experience for Undergraduates (REU) in Ocean Sciences: From Estuaries to the Deep Sea as one model for incorporating a research ethics component into summer undergraduate research training programs. Weaved into the 10-week REU program, undergraduate interns participate in a series of conversations and a faculty mentor panel focused on research ethics. Topics discussed are in a framework for sharing myths, knowledge and personal experiences on issues in research with ethical implications. The series follows guidelines and case studies outlined from the text, On Being A Scientist: Responsible Conduct In Research Committee on Science, Engineering, and Public Policy, National Academy of Sciences.

Peer Mentor Program for the General Chemistry Laboratory Designed to Improve Undergraduate STEM Retention

ERIC Educational Resources Information Center

Damkaci, Fehmi; Braun, Timothy F.; Gublo, Kristin

2017-01-01

We describe the design and implementation of an undergraduate peer mentor program that can overlay an existing general chemistry laboratory and is designed to improve STEM student retention. For the first four freshman cohorts going through the program, year-to-year retention improved by a four-year average of 20% for students in peer-mentored…

Summer Student Research Presentations

NASA Technical Reports Server (NTRS)

Casey, Carol (Editor)

2005-01-01

In 2005, over 150 undergraduate students and first-year graduate students participated in a variety of research programs coordinated by the Jet Propulsion Laboratory Education Office in conjunction with the Caltech Student- Faculty Programs Office. The programs give students the opportunity to conduct research under the guidance of an experienced mentor for a 10-week period. Students gain valuable experience while contributing to the ongoing goals of JPL. Students are required to submit progress reports and an abstract, and to give an oral presentation of their projects to an audience of JPL staff and other students. This set of abstracts provides brief descriptions of the projects that were conducted by these students and their mentors. A schedule of student talks is also included.

Journal of Undergraduate Research, Volume VI, 2006

DOE Office of Scientific and Technical Information (OSTI.GOV)

Faletra, P.; Schuetz, A.; Cherkerzian, D.

Students who conducted research at DOE National Laboratories during 2005 were invited to include their research abstracts, and for a select few, their completed research papers in this Journal. This Journal is direct evidence of students collaborating with their mentors. Fields in which these students worked include: Biology; Chemistry; Computer Science; Engineering; Environmental Science; General Sciences; Materials Sciences; Medical and Health Sciences; Nuclear Sciences; Physics; and Science Policy.

Statistical mentoring at early training and career stages

DOE PAGES

Anderson-Cook, Christine M.; Hamada, Michael S.; Moore, Leslie M.; ...

2016-06-27

At Los Alamos National Laboratory (LANL), statistical scientists develop solutions for a variety of national security challenges through scientific excellence, typically as members of interdisciplinary teams. At LANL, mentoring is actively encouraged and practiced to develop statistical skills and positive career-building behaviors. Mentoring activities targeted at different career phases from student to junior staff are an important catalyst for both short and long term career development. This article discusses mentoring strategies for undergraduate and graduate students through internships as well as for postdoctoral research associates and junior staff. Topics addressed include project selection, progress, and outcome; intellectual and social activitiesmore » that complement the student internship experience; key skills/knowledge not typically obtained in academic training; and the impact of such internships on students’ careers. Experiences and strategies from a number of successful mentorships are presented. Feedback from former mentees obtained via a questionnaire is incorporated. As a result, these responses address some of the benefits the respondents received from mentoring, helpful contributions and advice from their mentors, key skills learned, and how mentoring impacted their later careers.« less

Statistical mentoring at early training and career stages

DOE Office of Scientific and Technical Information (OSTI.GOV)

Anderson-Cook, Christine M.; Hamada, Michael S.; Moore, Leslie M.

At Los Alamos National Laboratory (LANL), statistical scientists develop solutions for a variety of national security challenges through scientific excellence, typically as members of interdisciplinary teams. At LANL, mentoring is actively encouraged and practiced to develop statistical skills and positive career-building behaviors. Mentoring activities targeted at different career phases from student to junior staff are an important catalyst for both short and long term career development. This article discusses mentoring strategies for undergraduate and graduate students through internships as well as for postdoctoral research associates and junior staff. Topics addressed include project selection, progress, and outcome; intellectual and social activitiesmore » that complement the student internship experience; key skills/knowledge not typically obtained in academic training; and the impact of such internships on students’ careers. Experiences and strategies from a number of successful mentorships are presented. Feedback from former mentees obtained via a questionnaire is incorporated. As a result, these responses address some of the benefits the respondents received from mentoring, helpful contributions and advice from their mentors, key skills learned, and how mentoring impacted their later careers.« less

Surface plasmon microscopy with low-cost metallic nanostructures for biosensing I

NASA Astrophysics Data System (ADS)

Lindquist, Nathan; Oh, Sang-Hyun; Otto, Lauren

2012-02-01

The field of plasmonics aims to manipulate light over dimensions smaller than the optical wavelength by exploiting surface plasmon resonances in metallic films. Typically, surface plasmons are excited by illuminating metallic nanostructures. For meaningful research in this exciting area, the fabrication of high-quality nanostructures is critical, and in an undergraduate setting, low-cost methods are desirable. Careful optical characterization of the metallic nanostructures is also required. Here, we present the use of novel, inexpensive nanofabrication techniques and the development of a customized surface plasmon microscopy setup for interdisciplinary undergraduate experiments in biosensing, surface-enhanced Raman spectroscopy, and surface plasmon imaging. A Bethel undergraduate student performs the nanofabrication in collaboration with the University of Minnesota. The rewards of mentoring undergraduate students in cooperation with a large research university are numerous, exposing them to a wide variety of opportunities. This research also interacts with upper-level, open-ended laboratory projects, summer research, a semester-long senior research experience, and will enable a large range of experiments into the future.

Maximizing Undergraduate Success By Combining Research Experiences with Outreach, Peer Mentoring and Professional Development

NASA Astrophysics Data System (ADS)

Bruno, B. C.

2014-12-01

The C-MORE Scholars Program provides hands-on, closely mentored research experiences to University of Hawaii (UH) undergraduates during the academic year. Students majoring in the geosciences, especially underrepresented students, from all campuses are encouraged to apply. The academic-year research is complemented by outreach, professional development and summer internships. Combined, these experiences help students develop the skills, confidence and passion that are essential to success in a geoscience career. Research. All students enter the program as trainees, where they learn lab and field research methods, computer skills and science principles. After one year, they are encouraged to reapply as interns, where they work on their own research project. Students who have successfully completed their intern year can reapply as fellows, where they conduct an independent research project such as an honors thesis. Students present their research at a Symposium through posters (trainees) or talks (interns and fellows). Interns and fellows help organize program activities and serve as peer mentors to trainees.Multi-tiered programs that build a pathway toward graduation have been shown to increase student retention and graduation success. Outreach. Undergraduate researchers rarely feel like experts when working with graduate students and faculty. For students to develop their identity as scientists, it is essential that they be given the opportunity to assume the role as expert. Engaging students in outreach is a win-win situation. Students gain valuable skills and confidence in sharing their research with their local community, and the public gets to learn about exciting research happening at UH. Professional Development. Each month, the Scholars meet to develop their professional skills on a particular topic, such as outreach, scientific presentations, interviewing, networking, and preparing application materials for jobs, scholarships and summer REUs. Students are strongly encouraged to participate in summer REUs on the mainland US, both to gain independence and as a testing ground for graduate school. In December, qualitative and quantitative evaluation results will be shared to demonstrate the effectiveness of this model in increasing student retention and graduation success.

Toward a Pedagogy for Faculty and Student Co-Responsibility in Curating College Museum Exhibitions

ERIC Educational Resources Information Center

Rodgers, Susan

2015-01-01

When undergraduates work with college faculty on complex research projects, the students are often asked to take on the role of "secondary-level" gatherers of data. This can be legitimate: the students have no graduate training and the faculty mentor is more experienced in research design and analysis. This study, however, offers an…

"But I Said Something Now": Using Border Pedagogies to Sow Seeds of Activism in Youth Empowerment Programs

ERIC Educational Resources Information Center

Thompson, Candace; Hardee, Sheri C.

2017-01-01

In this article, two teacher educator researchers engage in a duologue to explore the pedagogical and poetic openings experienced during two individual youth empowerment school-based research projects--one a middle school poetry project, the other a high-school mentoring project. The projects engage minoritized youth with undergraduate students in…

"A Circular Council of People with Equal Ideas": The Mentoring Mosaic in a Preservice Teacher Education Program

ERIC Educational Resources Information Center

Davis, Susan A.

2017-01-01

Mentoring in music education programs is such a ubiquitous part of the process; it is sometimes overlooked or subsumed under other categories. The purpose of this article is to highlight mentoring relationships within an undergraduate music teacher education program. Formal, informal, vertical, and horizontal mentoring are examined from the…

A Mentoring Program for Inquiry-Based Teaching in a College Geometry Class

ERIC Educational Resources Information Center

Miller, Nathaniel; Wakefield, Nathan

2014-01-01

This paper describes a mentoring program designed to prepare novice instructors to teach a college geometry class using inquiry-based methods. The mentoring program was used in a medium-sized public university with approximately 12,000 undergraduate students and 1,500 graduate students. The authors worked together to implement a mentoring program…

Mutual Mentoring Makes Better Mentors

NASA Astrophysics Data System (ADS)

Blaha, Cindy; Bug, Amy; Cox, Anne; Fritz, Linda; Whitten, Barbara

2011-03-01

In this talk we discuss one of the impacts of an NSF ADVANCE sponsored horizontal, mutual mentoring alliance. Our cohort of five women physicists at liberal arts colleges has found that mutual mentoring has had a profound impact on many aspects of our professional lives. In this talk we will describe how our peer-to-peer mentoring has enabled us to become better mentors for our undergraduate students, for recent graduates beginning their careers and for colleagues at local and neighboring institutions.

Creating a More Inclusive Talent Pool for the GeoSciences in NOAA Mission Fields:

NASA Astrophysics Data System (ADS)

Rousseau, J.; Trotman, A. A.

2014-12-01

The National Oceanic and Atmospheric Administration (NOAA) Educational Partnership Program (EPP) with Minority Serving Institutions (MSI) is recognized as a model federal Science, Technology, Engineering, and Mathematics, (STEM) education investment. The EPP has a premier goal of increasing the numbers of students, especially from underrepresented communities, who are trained and awarded degrees in NOAA mission-relevant STEM fields. This goal is being achieved through awards to support undergraduate and graduate level student scholarships and to enhance NOAA mission-relevant education, research and internships at EPP Cooperative Science Centers located at MSIs. The internships allow undergraduate students to gain technical experience in STEM fields while gaining an understanding of a science mission agency such as NOAA. EPP has built evidence supporting the value of internships with its Undergraduate Scholarship Program (USP). Program metrics are used to refine and improve the internship to ensure student success. Scholarships are competitively awarded and requires applicants to submit a personal statement detailing the NOAA-relevant professional experience the applicant seeks to acquire, and gauges the depth of understanding of the work of NOAA.A focus is the EPP USP Student Internship at NOAA, which has two training phases. The first occurs at NOAA HQ in Maryland and incorporates exposure to NOAA professional culture including mentoring and professional development for scholarship recipients. The second occurs at NOAA facilities in the 50 states and US Territories. The internship projects are conducted under the supervision of a NOAA mentor and allow the scholars to: acquire increased science and technology skills: be attached to a research group and participate in a research activity as part of the team; and, acquire practical experience and knowledge of the day-to-day work of the NOAA facility. EPP has recently initiated the Experiential Research and Training Opportunities (NERTO) for students from the CSCs. The NERTO is a longer term immersion at NOAA facilities, with a NOAA mentor working collaboratively with their academic advisor on a NOAA science priority. Consequently, the NERTO is strengthening the undergraduate to graduate education and workforce pipeline.

Administration, Best Practices, and Evaluation of the National Weather Center REU Program

NASA Astrophysics Data System (ADS)

Zaras, D. S.; Gonzalez-Espada, W.

2005-12-01

The National Weather Center Research Experiences for Undergraduates program in Norman, Oklahoma, is a unique undergraduate career exploration experience, drawing upon the resources available in the National Weather Center's (NWC) state, federal, and university groups. This program takes full advantage of our location by including a wide variety of professionals from throughout the NWC community as mentors and contributors of lectures, workshops, tours, field trips, and job shadow experiences to expose the students to a broad spectrum of research topics and careers in meteorology. Students actively practice good research methodology by being paired with mentors who are productive researchers. The program aims to provide a strong and transformative educational experience that models the life of a scientist. This presentation will include a brief overview of program administration, analysis of applicant characteristics, "best practices" learned since 2001, and new additions to the NWC program funded through a 2-Year Extension for Special Creativity. The presentation will conclude with a brief evaluation of how well the program meets its goals of helping students clarify graduate school and career plans, and build self-efficacy regarding their potential for a career in scientific research.

Fermilab Education Office - Volunteer

Science.gov Websites

: Mentor for SIST (undergraduates) - Sandra Charles Mentor for TARGET (high school students) - Sandra Charles Search Programs - Search Science Adventures - Calendar - About - FAQ - Fermilab Friends - Fermilab

Collaborative, Early-undergraduate-focused REU Programs at Savannah State University have been Vital to Growing a Demographically Diverse Ocean Science Community

NASA Astrophysics Data System (ADS)

Gilligan, M. R.; Cox, T. M.; Hintz, C. J.

2011-12-01

Formal support for undergraduates to participate in marine/ocean science research at Savannah State University (SSU), a historically-Black unit of the University System of Georgia, began in 1989 with funding from the National Science Foundation for an unsolicited proposal (OCE-8919102, 34,935). Today SSU, which has offered B.S degrees since 1979 and M.S. degrees since 2001 in Marine Sciences, is making major contributions nationally to demographic diversity in ocean sciences. 33% of Master's degrees in marine/ocean sciences earned by African Americans in the U.S. from 2004-2007 were earned at SSU. 10% of African American Master's and Doctoral students in marine/ ocean sciences in 2007 were either enrolled in the Master's program at SSU or were former SSU students enrolled in Doctoral programs elsewhere. Collaborative REU programs that focus on early (freshman and sophomore) undergraduate students have been a consistent and vital part of that success. In the most recent iteration of our summer REU program we used six of the best practices outlined in the literature to increase success and retention of underrepresented minority students in STEM fields: early intervention, strong mentoring, research experience, career counseling, financial support, workshops and seminars. The early intervention with strong mentoring has proven successful in several metrics: retention in STEM majors (96%), progression to graduate school (50%), and continuation to later research experiences (75%). Research mentors include faculty at staff at SSU, the Skidaway Institute of Oceanography, Gray's Reef National Marine Sanctuary and Georgia Tech-Savannah. Formal collaborative and cooperative agreements, externally-funded grants, and contracts in support of student research training have proven to be critical in providing resources for growth and improvement marine science curricular options at the University. Since 1981 the program has had four formal partnerships and 36 funded grant awards and contracts totaling 11.7 million. HBCUs are disproportionately more effective in training significant numbers of African American students in the sciences. Although they enrolled only 11.1% of African-American undergraduates and 9.4% of African American graduate students in fall 2007 in the U.S., they awarded 33.3% of undergraduate and 24% of master's degrees earned by African-Americans in Biological, biomedical and, physical sciences, and science technologies in 2006 and 2007. Commitments to the development of non-traditional academic and research programs at HBCUs and other minority serving institutions should be expanded to increase demographic diversity in the ocean sciences.

Journal of Undergraduate Research, Volume I, 2001

DOE Office of Scientific and Technical Information (OSTI.GOV)

Faletra, P.; Beavis, W.; Franz, K.

This is our first volume of the Undergraduate Journal. It is an approbation of the impressive research performed by summer interns under the guidance of their dedicated mentors. The full-length publications were chosen from a pool of submissions that were reviewed by many of the excellent scientists at our National Laboratories. Most of these students will pursue careers in science, engineering and technology and, hopefully, some of this talent will remain with our labs. We have also included about 125 abstracts that survived the review process. These were submitted from all of our participating National Laboratories.

SOARS: Significant Opportunities in Atmospheric Research and Science

NASA Astrophysics Data System (ADS)

Windham, T. L.; Hagan, M. E.

2001-05-01

SOARS, a model program, has developed a unique mutli-year mentoring and learning community to support, teach, and guide college students from diverse backgrounds. SOARS is dedicated to increasing the number of African American, American Indian, and Hispanic/Latino students enrolled in master's and doctoral degree programs in the atmospheric and related sciences with the goal of supporting the development of a diverse, internationally competitive and globally engaged workforce within the scientific community. Since its 1996 inception, 51 undergraduates have participated. All 51 completed or are on schedule to complete their undergraduate degrees with a major in an atmospheric or related science. Currently 17 protégés are in graduate programs. Eight have completed M.S. degrees; two are Ph.D. candidates. SOARS has a retention rate of 82 percent. The SOARS learning community provides multi-year programing for protégés that includes educational and research opportunities, mentoring, career counseling and guidance, and the possibility of financial support for a graduate level program. Protégés spend their summers at NCAR, participate in ongoing research projects, an eight week scientific writing and communication workshop, and scientific seminars. They benefit from long-term mentoring from respected scientists and professionals, learn about career opportunities, practice leadership and are encouraged to complete a graduate program in an atmospheric or related science. In this presentation we highlight the SOARS program structure and objectives with particular emphasis on the mentoring model that is fundamental to SOARS. We conclude with a summary of SOARS protégés' contributions to the broader scientific community which include oral and poster presentations at national and regional scientific conferences, as well as co-authorship of refereed journal articles.

Peer to peer mentoring: Outcomes of third-year midwifery students mentoring first-year students.

PubMed

Hogan, Rosemarie; Fox, Deborah; Barratt-See, Georgina

2017-06-01

Undergraduate midwifery students commonly experience anxiety in relation to their first clinical placement. A peer mentoring program for midwifery students was implemented in an urban Australian university. The participants were first-year mentee and third-year mentor students studying a three-year Bachelor degree in midwifery. The program offered peer support to first-year midwifery students who had little or no previous exposure to hospital clinical settings. Mentors received the opportunity to develop mentoring and leadership skills. The aim was to explore the benefits, if any, of a peer mentoring program for midwifery students. The peer mentoring program was implemented in 2012. Sixty-three peer mentors and 170 mentees participated over three academic years. Surveys were distributed at the end of each academic year. Quantitative survey data were analysed descriptively and qualitative survey data were analysed thematically using NVivo 10 software. Over 80% of mentors and mentees felt that the program helped mentees adjust to their midwifery clinical placement. At least 75% of mentors benefited, in developing their communication, mentoring and leadership skills. Three themes emerged from the qualitative data, including 'Receiving start-up advice'; 'Knowing she was there' and 'Wanting more face to face time'. There is a paucity of literature on midwifery student peer mentoring. The findings of this program demonstrate the value of peer support for mentees and adds knowledge about the mentor experience for undergraduate midwifery students. The peer mentor program was of benefit to the majority of midwifery students. Copyright © 2017 Australian College of Midwives. Published by Elsevier Ltd. All rights reserved.

PROGRESS (PROmoting Geoscience Research Education and SuccesS): a novel mentoring program for retaining undergraduate women in the geosciences

NASA Astrophysics Data System (ADS)

Clinton, Sandra; Adams, Amanda; Barnes, Rebecca; Bloodhart, Brittany; Bowker, Cheryl; Burt, Melissa; Godfrey, Elaine; Henderson, Heather; Hernandez, Paul; Pollack, Ilana; Sample McMeeking, Laura Beth; Sayers, Jennifer; Fischer, Emily

2017-04-01

Women still remain underrepresented in many areas of the geosciences, and this underrepresentation often begins early in their university career. In 2015, an interdisciplinary team including expertise in the geosciences (multiple sub-disciplines), psychology, education and STEM persistence began a project focused on understanding whether mentoring can increase the interest, persistence, and achievement of undergraduate women in geoscience fields. The developed program (PROGRESS) focuses on mentoring undergraduate female students, starting in their 1st and 2nd year, from two geographically disparate areas of the United States: the Carolinas in the southeastern part of the United States and the Front Range of the Rocky Mountains in the western part of the United States. The two regions were chosen due to their different student demographics, as well as the differences in the number of working female geoscientists in the region. The mentoring program includes a weekend workshop, access to professional women across geoscience fields, and both in-person and virtual peer networks. Four cohorts of students were recruited and participated in our professional development workshops (88 participants in Fall 2015 and 94 participants in Fall 2016). Components of the workshops included perceptions of the geosciences, women in STEM misconceptions, identifying personal strengths, coping strategies, and skills on building their own personal network. The web-platform (http://geosciencewomen.org/), designed to enable peer-mentoring and provide resources, was launched in the fall of 2015 and is used by both cohorts in conjunction with social media platforms. We will present an overview of the major components of the program, discuss lessons learned during 2015 that were applied to 2016, and share preliminary analyses of surveys and interviews with study participants from the first two years of a five-year longitudinal study that follows PROGRESS participants and a control group.

AstroCom NYC: Expanding the Partnership

NASA Astrophysics Data System (ADS)

Paglione, Timothy; Ford, Saavik; Agueros, Marcel A.; Mac Low, Mordecai-Mark; Robbins, Dennis

2015-01-01

AstroCom NYC is an undergraduate mentoring program designed to improve urban minority student access to opportunities in astrophysical research by greatly enhancing partnerships between research astronomers in New York City (City University of New York - an MSI, American Museum of Natural History, and Columbia). AstroCom NYC provides centralized, personalized mentoring as well as financial and academic support, to CUNY undergraduates throughout their studies, plus the resources and opportunities to further CUNY faculty research with students. The goal is that students' residency at AMNH helps them build a sense of belonging in the field, and readies and inspires them for graduate study. AstroCom NYC provides a rigorous Methods of Scientific Research course developed specifically to this purpose, a laptop, research and career mentors, outreach activities, scholarships and stipends, Metrocards, and regular assessment for maximum effectiveness. Stipends in part alleviate the burdens at home typical for CUNY students so they may concentrate on their academic success. AMNH serves as the central hub for our faculty and students, who are otherwise dispersed among all five boroughs of the City. For our second cohort, we dramatically improved the application and screening process, implemented a number of tools to evaluate their potential for grad school, and began growing a network of potential hosts for summer internships around NY State and the US. We review these implementations and outcomes, as well as plans for Year 3, when we expect many of our current students to compete for external summer REUs, and after greatly expanding the program reach through a NASA community college initiative.

Distance-Mentored Undergraduate Research

ERIC Educational Resources Information Center

Albuja, Analia; Greenlaw, Steven A.

2014-01-01

One strength of liberal arts and sciences colleges is their emphasis on so-called "high-impact practices" (HIPs), which are known to be associated with student success. These practices include first-year seminars, learning communities, and study abroad, among others. What all of these HIPs share is a deeper level of engagement and active…

Good Teaching Starts Here: Applied Learning at the Graduate Teaching Assistant Institute

ERIC Educational Resources Information Center

Parker, Michele A.; Ashe, Diana; Boersma, Jess; Hicks, Robert; Bennett, Victoria

2015-01-01

Increasingly, graduate teaching assistants serve as the primary instructors in undergraduate courses, yet research has shown that training and development for these teaching assistants is often lacking in programs throughout the United States and Canada. Providing mentoring and skill development opportunities for graduate teaching assistants is…

A Program Aimed toward Inclusive Excellence for Underrepresented Undergraduate Women in the Sciences

ERIC Educational Resources Information Center

Katz, Laura A.; Aloisio, Kathryn M.; Horton, Nicholas J.; Ly, Minh; Pruss, Sara; Queeney, Kate; Rowen, Cate; DiBartolo, Patricia Marten

2017-01-01

Created to foster inclusive excellence, Smith College's Achieving Excellence in Mathematics, Engineering, and Science (AEMES) Scholars program provides early faculty-mentored research opportunities and other programming as a way to foster success in academic outcomes for underrepresented women in science. Using academic record data, we compared…

Exploring and Improving Student Engagement in an Accelerated Undergraduate Nursing Program through a Mentoring Partnership: An Action Research Study.

PubMed

Bramble, Marguerite; Maxwell, Hazel; Einboden, Rochelle; Farington, Sally; Say, Richard; Beh, Chin Liang; Stankiewicz, Grace; Munro, Graham; Marembo, Esther; Rickard, Greg

2018-05-30

This Participatory Action Research (PAR) project aimed to engage students from an accelerated 'fast track' nursing program in a mentoring collaboration, using an interdisciplinary partnership intervention with a group of academics. Student participants represented the disciplines of nursing and paramedicine with a high proportion of culturally and linguistically diverse (CALD) students. Nine student mentors were recruited and paired with academics for a three-month 'mentorship partnership' intervention. Data from two pre-intervention workshops and a post-intervention workshop were coded in NVivo11 using thematic analysis. Drawing on social inclusion theory, a qualitative analysis explored an iteration of themes across each action cycle. Emergent themes were: 1) 'building relationships for active engagement', 2) 'voicing cultural and social hierarchies', and 3) 'enacting collegiate community'. The study offers insights into issues for contemporary accelerated course delivery with a diverse student population and highlights future strategies to foster effective student engagement.

What Works! Encouraging Diversity in Science, Mathematics, Engineering, and Technology through Effective Mentoring. A 5-Year Overview of the Research Careers for Minority Scholars Program.

ERIC Educational Resources Information Center

National Science Foundation, Arlington, VA. Directorate for Education and Human Resources.

The National Science Foundation's (NSF) Research Careers for Minority Scholars (RCMS) program was initiated to encourage individuals from underrepresented groups in science, mathematics, engineering and technology (SMET) disciplines to complete undergraduate degree programs and matriculate to SMET graduate degree programs. This report describes…

Critical Mentoring Practices to Support Diverse Students in Higher Education: Chicana/Latina Faculty Perspectives

ERIC Educational Resources Information Center

Figueroa, Julie López; Rodriguez, Gloria M.

2015-01-01

This chapter outlines critical practices that emerged from utilizing social justice frameworks to mentor first-generation, underrepresented minority students at the undergraduate to doctoral levels. The mentoring strategies include helping students to reframe instances when faculty and peers unconsciously conflate academic rigor with color-blind…

Preservice Music Teacher Perceptions of Mentoring Young Composers: An Exploratory Case Study

ERIC Educational Resources Information Center

Menard, Elizabeth A.; Rosen, Robert

2016-01-01

Case study techniques were used to investigate perceptions of undergraduate music majors participating as teacher/mentors for elementary students in a university sponsored music composition program. Data included teacher interviews and observation of teacher training and composition mentoring sessions. Teacher perceptions were categorized as…

Understanding How Peer Mentoring and Capitalization Link Stem Students to Their Majors

ERIC Educational Resources Information Center

Holland, Jonathan M.; Major, Debra A.; Orvis, Karin A.

2012-01-01

This study investigated the role of peer mentoring and voluntary self-development activities (i.e., capitalization) in anchoring science, technology, engineering, and mathematics students to their college majors. Online data were collected from 214 undergraduate students. As hypothesized, mentoring was positively related to capitalization, and…

Exploring deliberate mentoring approaches aimed at improving the recruitment and persistence of undergraduate women in the geosciences

NASA Astrophysics Data System (ADS)

Pollack, I. B.; Adams, A. S.; Barnes, R. T.; Burt, M. A.; Clinton, S. M.; Godfrey, E.; Hernandez, P.; Bloodhart, B.; Donaldson, L.; Henderson, H.; Sayers, J.; Sample McMeeking, L. B.; Bowker, C.; Fischer, E. V.

2015-12-01

In the United States, men outnumber women in many science and engineering fields by nearly 3 to 1. In fields like physics or the geosciences, the gender gap can be even wider. Previous studies have identified the early college years as a critical point where many women exit STEM disciplines. An interdisciplinary team including experts in the geosciences, psychology, education, and STEM persistence have recently begun a 5-year project focused on understanding whether mentoring can increase the interest, persistence, and achievement of undergraduate women in the geosciences. The program focuses on mentoring first and second year female undergraduate students from three universities in Colorado and Wyoming and four universities in North and South Carolina. The mentoring program includes a weekend workshop, access to professional women across geoscience fields and both in-person and virtual peer networks. The first weekend workshops will be held in October 2015. We will present an overview of the major components and lessons learned from these workshops and showcase the web center, including the online peer-networking forum.

Scientific Production of Research Fellows at the Zagreb University School of Medicine, Croatia

PubMed Central

Polašek, Ozren; Kolčić, Ivana; Buneta, Zoran; Čikeš, Nada; Pećina, Marko

2006-01-01

Aim To evaluate scientific production among research fellows employed at the Zagreb University School of Medicine and identify factors associated with their scientific output. Method We conducted a survey among research fellows and their mentors during June 2005. The main outcome measure was publication success, defined for each fellow as publishing at least 0.5 articles per employment year in journals indexed in the Current Contents bibliographic database. Bivariate methods and binary logistic regression were used in data analysis. Results A total of 117 fellows (response rate 95%) and 83 mentors (100%) were surveyed. The highest scientific production was recorded among research fellows employed in public health departments (median 3.0 articles, interquartile range 4.0), compared with those from pre-clinical (median 0.0, interquartile range 2.0) and clinical departments (median 1.0, interquartile range 2.0) (Kruskal-Wallis, P = 0.003). A total of 36 (29%) research fellows published at least 0.5 articles per employment year and were considered successful. Three variables were associated with fellows’ publication success: mentor’s scientific production (odds ratio [OR], 3.14; 95% confidence interval [CI], 1.31-7.53), positive mentor’s assessment (OR, 3.15; 95% CI, 1.10-9.05), and fellows’ undergraduate publication in journals indexed in the Current Contents bibliographic database (OR, 4.05; 95% CI, 1.07-15.34). Conclusion Undergraduate publication could be used as one of the main criteria in selecting research fellows. One of the crucial factors in a fellow’s scientific production and career advancement is mentor’s input, which is why research fellows would benefit most from working with scientifically productive mentors. PMID:17042070

Exploration of the lived experiences of undergraduate science, technology, engineering, and mathematics minority students

NASA Astrophysics Data System (ADS)

Snead-McDaniel, Kimberly

An expanding ethnicity gap exists in the number of students pursuing science, technology, engineering, and mathematics (STEM) careers in the United States. The National Action Council for Minorities in Engineering revealed that the number of minorities pursuing STEM degrees and careers has declined over the past few years. The specific origins of this trend are not quite evident; one variable to consider is that undergraduate minority students are failing in STEM disciplines at various levels of education from elementary to postsecondary. The failure of female and minority students to enter STEM disciplines in higher education have led various initiatives to establish programs to promote STEM disciplines among these groups. Additional funding for minority STEM programs have led to a increase in undergraduate minority students entering STEM disciplines, but the minority students' graduation rate in STEM disciplines is approximately 7% lower than the graduation of nonminority students in STEM disciplines. This phenomenological qualitative research study explores the lived experiences of underrepresented minority undergraduate college students participating in an undergraduate minority-mentoring program. The following nine themes emerged from the study: (a) competitiveness, (b) public perception, (c) dedication, (d) self-perception, (e) program activities, (f) time management, (g) exposure to career and graduate opportunities, (h) rigor in the curriculum, and (i) peer mentoring. The themes provided answers and outcomes to better support a stronger minority representation in STEM disciplines.

Attracting Students Into Science: Insights From a Summer Research Internship Program for Community College Students in Colorado

NASA Astrophysics Data System (ADS)

Anderson, S. P.; Smith, L. K.; Gold, A. U.; Batchelor, R. L.; Monday, B.

2014-12-01

Research Experience for Undergraduates (REU) programs commonly serve students already committed to careers in science. To spark student interest in the sciences early in their college career, the CIRES diversity initiative teamed with the Boulder Creek Critical Zone Observatory to build an REU for Colorado community college students. A group of 7 students was selected from consideration of diversity, prior training, and personal statements. Each student was paired with a research science mentor. Field excursions and team-building exercises filled the first week of the 8-week program. Students received weekly training in science communication, responsible conduct of research, use of spreadsheet and graphing software, and statistical analysis. Each student presented their research in a poster session, an oral presentation, and a written report. Several aspects of this pilot program worked well. The students formed a very supportive cohort, despite the fact that they were not in residence. Cohesion grew out of the immersion in field trips, and was reinforced with weekly check-ins. The trainings were essential for seeing projects through to written and oral presentations. Teaming students for fieldwork was an effective strategy to build support, and reduce mentor fatigue. Each student produced useful data. In the future, we would include a workshop on personal finances to address a clear need. Transportation support will be provided. A residential program might attract some but could preclude participation of students with families or other life-issues. Personal tutoring tailored to research projects would address low math skills. All 7 students completed the program; several elected to submit to the undergraduate virtual poster session at Fall AGU. Students all reported enormous personal and academic growth. Some are discussing transfer and graduate school opportunities with their mentors. The enthusiasm and appreciation of the students was unparalleled.

Developing virtual REU cohorts: Reflections from the IRIS Undergraduate Internship Program

NASA Astrophysics Data System (ADS)

Hubenthal, M.; Taber, J.; Aster, R.; Frassetto, A.

2007-12-01

Beginning in 2006, the IRIS Education and Outreach program received funding from the National Science Foundation (EAR-0453427) to explore a novel approach to the traditional Research Experience for Undergraduates (REU) model. This model blends the spirit of an REU program, which traditionally hosts participants in one location with successful prior IRIS experience hosting students at widely separated institutions to participate in summer research. A unique feature the IRIS Undergraduate Internship Program is that throughout the summer, interns form and sustain a virtual community, offering assistance, sharing ideas, asking questions, and relaying life experiences while conducting their research at diverse institutions. Key to IRIS's REU model is a combination of: one-on-one mentoring by researchers at IRIS institutions across the US, developing a strong unity among interns through both face-to-face and on-line interactions, participation of an IRIS REU alumni mentor to provide both group and intern-specific guidance developing interns' abilities to self-evaluate and work independently, through carefully designed web-based tools, and increasing interns' awareness of the IRIS and broader Earth Science community; demonstrating the role they will play in this larger community. Virtual interaction is facilitated by 1) bringing students together for face-to-face contact, through a week long orientation held annually at the IRIS PASSCAL Instrument Center on the campus of the New Mexico Institute of Mining and Technology, and 2) the community enabling web infrastructure at http://www.iris.edu/internship/. During the orientation students engage in classes in geophysics basics, career preparation, as well as training to communicate virtually. Our experiences and evaluations from the 2006 and 2007 field seasons have:shown the increasing demand for electronic advertising of REU programs, provided support for several assumptions of the model including the key role of both the orientation week and the alumni mentor, revealed the important role of blogs and discussion forums in the mentoring and self-reflection process, as well as additional technical enhancements to improve the virtual cohort, produced concrete examples of the model applied at its best, and helped the program identify challenges the model faces, e.g communicating during remote fieldwork and sustaining intern's attention and participation in the virtual community.

Analysis of Discussion Board Interaction in an Online Peer Mentoring Site

ERIC Educational Resources Information Center

Ruane, Regina; Lee, Vera J.

2016-01-01

This study uses Critical Discourse Analysis and Social Network Analysis to examine an online peer mentoring site created to unite first-year and third-year preservice teachers enrolled in an undergraduate teacher education program. The peer mentoring site was developed to provide both first-year preservice teachers and more experienced peers the…

Developing Peer Mentoring through Evaluation

ERIC Educational Resources Information Center

Hall, Ralph; Jaugietis, Zarni

2011-01-01

Peer mentoring programs are an important component in the strategy to enhance the first year undergraduate experience. The operation of these programs needs to be informed by evidence as to their effectiveness. In this article we report on a six-year study of the development of a peer mentoring program in which feedback is used to improve program…

The ASSURE Summer REU Program: Introducing research to first-generation and underserved undergraduates through space sciences and engineering projects

NASA Astrophysics Data System (ADS)

Barron, Darcy; Peticolas, Laura; Multiverse Team at UC Berkeley's Space Sciences Lab

2018-01-01

The Advancing Space Science through Undergraduate Research Experience (ASSURE) summer REU program is an NSF-funded REU site at the Space Sciences Lab at UC Berkeley that first started in summer 2014. The program recruits students from all STEM majors, targeting underserved students including community college students and first-generation college students. The students have little or no research experience and a wide variety of academic backgrounds, but have a shared passion for space sciences and astronomy. We will describe our program's structure and the components we have found successful in preparing and supporting both the students and their research advisors for their summer research projects. This includes an intensive first week of introductory lectures and tutorials at the start of the program, preparing students for working in an academic research environment. The program also employs a multi-tiered mentoring system, with layers of support for the undergraduate student cohort, as well as graduate student and postdoctoral research advisors.

Graduate admissions in clinical neuropsychology: the importance of undergraduate training.

PubMed

Karazsia, Bryan T; Stavnezer, Amy Jo; Reeves, Jonathan W

2013-11-01

Discussions of and recommendations for the training of clinical neuropsychologists exist at the doctoral, internship, and post-doctoral level. With few exceptions, the literature on undergraduate preparations in clinical neuropsychology is sparse and lacks empirical evidence. In the present study, graduate-level faculty and current trainees completed surveys about graduate school preparations. Faculty expectations of minimum and ideal undergraduate training were highest for research methods, statistics, and assessment. Preferences for "goodness of fit" also emerged as important admissions factors. These results offer evidence for desirable undergraduate preparations for advanced study in clinical neuropsychology. Although undergraduate training in psychology is intentionally broad, results from this study suggest that students who desire advanced study in clinical neuropsychology need to tailor their experiences to be competitive in the application process. The findings have implications for prospective graduate students, faculty who train and mentor undergraduates, and faculty who serve on admissions committees.

Research Experience for Undergraduates: A Non-Traditional Approach

NASA Astrophysics Data System (ADS)

Carrick, T. L.; Miller, K. C.; Hagedorn, E.; Velasco, A. A.

2012-12-01

Research experiences for undergraduates (REUs) have been documented to be an effective way to increase student retention in the Science, Technology, Engineering and Mathematics (STEM) by exposing students to research. REUs typically run during the summer months, allowing students to travel to different universities away from their home institutions. We created an REU program, Pathways Research Experience for undergraduates Program (PREP) that ran during the fall and spring academic semesters and focused on the geosciences. These students were provided with a monthly stipend to work with a research mentor, and they were required to attend a weekly professional development meeting led by the Pathways PIs and the program coordinator. The weekly training program focused on research skills, presentation skills, and graduate school preparation. Since a majority of students at University of Texas at El Paso (a Hispanic Serving Institution with 70% Hispanic and 10% Mexican students) must work outside the university while attending college, the stipends enabled students to remain on campus to "work", with the hope that this may contribute to their overall academic success. By spending more time on campus, the participants were able to interact more with faculty and other students, both at the undergraduate and graduate levels. Participants were chosen on a basis of GPA and the contents of an application that included a statement of purpose, a resume, a transcript, and at least one letter of recommendation. Once the student was selected, they were required to find a mentor and research project. Through an analysis of surveys, we have found that participants enjoy the meetings, which gave them a sense of belonging to a group, and an additional source of academic support. Participants were also expected to take part in outreach activities as part of our goal to create a geosciences network in El Paso. With this REU approach, we believe that our success rate suggests that this approach works well in Hispanic Serving Institutions: 51% of our participants have gone on to graduate school, 22% are still undergraduates, 17% are unknown, 5% are in industry and 5% are teaching.

Bioengineering and Bioinformatics Summer Institutes: Meeting Modern Challenges in Undergraduate Summer Research

PubMed Central

Dong, Cheng; Snyder, Alan J.; Jones, A. Daniel; Sheets, Erin D.

2008-01-01

Summer undergraduate research programs in science and engineering facilitate research progress for faculty and provide a close-ended research experience for students, which can prepare them for careers in industry, medicine, and academia. However, ensuring these outcomes is a challenge when the students arrive ill-prepared for substantive research or if projects are ill-defined or impractical for a typical 10-wk summer. We describe how the new Bioengineering and Bioinformatics Summer Institutes (BBSI), developed in response to a call for proposals by the National Institutes of Health (NIH) and the National Science Foundation (NSF), provide an impetus for the enhancement of traditional undergraduate research experiences with intense didactic training in particular skills and technologies. Such didactic components provide highly focused and qualified students for summer research with the goal of ensuring increased student satisfaction with research and mentor satisfaction with student productivity. As an example, we focus on our experiences with the Penn State Biomaterials and Bionanotechnology Summer Institute (PSU-BBSI), which trains undergraduates in core technologies in surface characterization, computational modeling, cell biology, and fabrication to prepare them for student-centered research projects in the role of materials in guiding cell biology. PMID:18316807

Research at a Liberal Arts College: Make Sure you have a Net for your High Wire Act

NASA Astrophysics Data System (ADS)

Marshall, Mark D.; Leung, Helen O.

2015-06-01

A career as a spectroscopist at a primarily (or exclusively) undergraduate institution presents both great rewards and significant challenges. Strategies that we have found helpful in meeting some of the challenges are presented along with some of the work we have been able to accomplish with undergraduate students. The most important resource is a network of colleagues who can provide mentoring and collaboration, and the role of the International Symposium on Molecular Spectroscopy in facilitating this support is highlighted.

The Pre-Major in Astronomy Program at the University of Washington: Increasing Diversity Through Research Experiences and Mentoring Since 2005

NASA Astrophysics Data System (ADS)

Rosenfield, Philip

2013-01-01

Graduate students in the astronomy department at the University of Washington began the Pre-Major in Astronomy Program (Pre-MAP) after recognizing that underrepresented students in STEM fields are not well retained after their transition from high school. Pre-MAP is a research and mentoring program that begins with a keystone seminar. First year students enroll in the Pre-MAP seminar to learn astronomical research techniques that they apply to research projects conducted in small groups. Students also receive one-on-one mentoring and peer support for the duration of the academic year and beyond. They are incorporated early into the department by attending Astronomy Department events and Pre-MAP field trips. Successful Pre-MAP students have declared astronomy and physics majors, expanded their research projects beyond the fall quarter, presented posters at the UW Undergraduate Research Symposium, and received research fellowships and summer internships. In this talk, we will discuss how we identified the issues that Pre-MAP was designed to address, what we've learned after six years of Pre-MAP, and share statistical results from a long-term quantitative comparison evaluation.

Mentoring Clinical-Year Medical Students: Factors Contributing to Effective Mentoring

PubMed Central

Fallatah, Hind I; Soo Park, Yoon; Farsi, Jamila; Tekian, Ara

2018-01-01

Theory: Academic mentoring is an effective method of enhancing undergraduate medical student academic performance, research productivity, career planning, and overall satisfaction. Hypotheses: This study investigates the relationship between mentor characteristics and mentee academic performance, with an emphasis on identifying students who need special support. Methods: A cross-sectional study was conducted among fourth-year medical students at King Abdulaziz University Faculty of Medicine undertaking the clinical skills module (CSM) rotation. Mentors included senior and junior faculty members from the Department of Internal Medicine and the Department of Family Medicine. King Abdulaziz University Faculty of Medicine assigned 1 mentor for every 10 medical students. We organized our mentoring program in the following format: (1) an initial group meeting (mentor with all 10 medical students) and (2) subsequent one-on-one meetings (mentor with each mentee alone). We assessed mentor characteristics, student academic performance and satisfaction, and the rate of mentees referred for special support. Results: A total of 184 students completed the CSM rotation. Among these, 90 students responded to the preprogram survey, with 83% reporting that mentoring was important to them. Group meetings and one-on-one meetings were attended by 60% and 49% of all students, respectively. The most frequent type of support required by the participating students was psychological support (12% of mentees). Participation in the mentoring program had no significant effect on student academic performance. Mentor seniority (P = .024) and motivation (P = .002) were significantly associated with the rate of student referral for special support. Conclusions: This study demonstrated that academic mentoring can be effective in enhancing student outcomes and promoting special support for students. Moreover, mentor and mentee motivation were found to be essential elements of a successful mentoring program. PMID:29497707

Kinesiology Career Club: Undergraduate Student Mentors' Perspectives on a Physical Activity-Based Teaching Personal and Social Responsibility Program

ERIC Educational Resources Information Center

Walsh, David S.; Veri, Maria J.; Willard, Jason J.

2015-01-01

The purpose of this article is to present university student mentors' perspectives on the impact of a teaching personal and social responsibility (TPSR) model youth program called the Kinesiology Career Club. Data sources in this qualitative case study included program observations, mentoring reflections, and semistructured interviews. Data…

The medical students' perspective of faculty and informal mentors: a questionnaire study.

PubMed

Park, Jay J H; Adamiak, Paul; Jenkins, Deirdre; Myhre, Doug

2016-01-08

Student mentoring is an important aspect of undergraduate medical education. While medical schools often assign faculty advisors to medical students as mentors to support their educational experience, it is possible for the students to pursue mentors informally. The possible role of these informal mentors and their interactions with the students in a faculty mentorship program has not been reported. This study builds upon previous work that suggested many students have informal mentors, and that there might be interplay between these two types of mentors. This study was conducted to report the experience of undergraduate medical students in a faculty mentorship program of their faculty mentors and if applicable, of their informal mentors. One month before residency (post-graduate training for Canadians) ranking, the survey was administered to the graduating class of 2014 at the University of Calgary's Cumming School of Medicine. The survey was created from focus groups of the previous graduating class of 2013. The survey investigated meeting characteristics and the students' perceptions of faculty advisors and informal mentors, and the students' intended choice for residency. The study response rate was 86% (95 of 111); 58% (54 of 93) of the students reported having an informal mentor. There was no reported difference in satisfaction ratings of the Faculty mentorship program between students with only faculty mentors and those with also informal mentors. Students' reporting of their satisfaction with the Faculty mentorship program and the faculty mentors did not differ between the students with informal mentors and those with faculty mentors only. The students' meeting frequency, discussed topics, and perceived characteristics of faculty mentors were not associated with having an informal mentor. The students generally perceived their informal mentors more positively than their faculty mentors. The reported student career intention was associated with the discipline of informal mentors and not with the discipline of faculty mentors. Informal mentorship was common for medical students. The presence of an informal mentor was not associated with dissatisfaction with the Faculty advisor or with the mentorship program. It is likely students may pursue informal mentorship for career-related reasons.

Want to Improve Undergraduate Thesis Writing? Engage Students and Their Faculty Readers in Scientific Peer Review

PubMed Central

Reynolds, Julie A.; Thompson, Robert J.

2011-01-01

One of the best opportunities that undergraduates have to learn to write like a scientist is to write a thesis after participating in faculty-mentored undergraduate research. But developing writing skills doesn't happen automatically, and there are significant challenges associated with offering writing courses and with individualized mentoring. We present a hybrid model in which students have the structural support of a course plus the personalized benefits of working one-on-one with faculty. To optimize these one-on-one interactions, the course uses BioTAP, the Biology Thesis Assessment Protocol, to structure engagement in scientific peer review. By assessing theses written by students who took this course and comparable students who did not, we found that our approach not only improved student writing but also helped faculty members across the department—not only those teaching the course—to work more effectively and efficiently with student writers. Students who enrolled in this course were more likely to earn highest honors than students who only worked one-on-one with faculty. Further, students in the course scored significantly better on all higher-order writing and critical-thinking skills assessed. PMID:21633069

Want to improve undergraduate thesis writing? Engage students and their faculty readers in scientific peer review.

PubMed

Reynolds, Julie A; Thompson, Robert J

2011-01-01

One of the best opportunities that undergraduates have to learn to write like a scientist is to write a thesis after participating in faculty-mentored undergraduate research. But developing writing skills doesn't happen automatically, and there are significant challenges associated with offering writing courses and with individualized mentoring. We present a hybrid model in which students have the structural support of a course plus the personalized benefits of working one-on-one with faculty. To optimize these one-on-one interactions, the course uses BioTAP, the Biology Thesis Assessment Protocol, to structure engagement in scientific peer review. By assessing theses written by students who took this course and comparable students who did not, we found that our approach not only improved student writing but also helped faculty members across the department--not only those teaching the course--to work more effectively and efficiently with student writers. Students who enrolled in this course were more likely to earn highest honors than students who only worked one-on-one with faculty. Further, students in the course scored significantly better on all higher-order writing and critical-thinking skills assessed.

Undergraduate Research at SETI in Astrobiology

NASA Astrophysics Data System (ADS)

Kress, Monika; Phillips, C.; DeVore, E.; Hubickyj, O.

2012-05-01

The SETI Institute and San Jose State University (SJSU) have begun a partnership (URSA: Undergraduate Research at the SETI Institute in Astrobiology) in which undergraduate science and engineering majors from SJSU participate in research at the SETI Institute during the academic year. We are currently in our second year of the three-year NASA-funded grant. The goal of this program is to expose future scientists, engineers and educators to the science of astrobiology and to NASA in general, and by so doing, to prepare them for the transition to their future career in the Silicon Valley or beyond. The URSA students are mentored by a SETI Institute scientist who conducts research at the SETI Institute headquarters or nearby at NASA Ames Research Center. The SETI Institute is a private, nonprofit organization dedicated to scientific research, education and public outreach. Its mission is to explore, understand and explain the origin, nature and prevalence of life in the universe. SJSU is a large urban public university that serves the greater Silicon Valley area in California. Students at SJSU come from diverse ethnic, cultural and socioeconomic backgrounds. Many of them face financial pressures that force them to pursue part-time work. URSA students are paid to work for 10 hours/week during the academic year, and also participate in monthly group meetings where they practice their presentation skills and discuss future plans. We encourage underserved and underrepresented students, including women, minority, and those who are the first in their family to go to college, to apply to the URSA program and provide ongoing mentoring and support as needed. While preparing students for graduate school is not a primary goal, some of our students have gone on to MS or PhD programs or plan to do so. The URSA program is funded by NASA EPOESS.

Increasing Diversity in the Earth Sciences - Impact of the IDES Program in Oregon

NASA Astrophysics Data System (ADS)

de Silva, S. L.; Guerrero, E. F.; Duncan, R. A.; de Silva, L. L.; Eriksson, S. C.

2014-12-01

The NSF-OEDG funded Increasing Diversity in the Earth Sciences (IDES) program hosted at Oregon State University targets undergraduate students from diverse backgrounds and diverse ethnicity to engage in research. Partnering with local community colleges, non-traditional students are the hallmark of this program. The IDES program has several components to support the students in the transition from community college to the four-year universities of Oregon State University and Portland State University. Over the four years, the program has adapted while adhering to its primary goals: (1) to increase the number of students from underrepresented groups who prepare for and pursue careers in Earth Science research and education, and (2) to strengthen the understanding of Earth Sciences and their relevance to society among broad and diverse segments of the population. Now in its final year under an extension, 53 participants have participated in the program. An ongoing external evaluation of the program reveals that the various stakeholders consider IDES very successful. Participant surveys and interviews document several impacts: expanded opportunities, making professional contacts, building self-confidence, enhanced ability to be employable, and personal acknowledgement. Research mentors and administrators from partner institutions see positive impacts on the students and on their organizations. Challenges include better communication between the IDES program, mentors, and students. IDES is poised to move forward with its current experiences and successes as a foundation for further funding. IDES-like activities can be funded from private sources and it is a good fit for funding from Research Experiences for Undergraduates at NSF. The new emphasis on education and research at community colleges is an exciting opportunity and Oregon State University has already used aspects of the IDES program in current grant proposals to obtain funds for more undergraduate research.

Mentoring Through Research as a Catalyst for the Success of Under-represented Minority Students in the Geosciences

NASA Astrophysics Data System (ADS)

Marsaglia, K.; Simila, G.; Pedone, V.; Yule, D.

2003-12-01

The Catalyst Program of the Department of Geological Sciences at California State University Northridge has been developed by four faculty members who were the recipients of a three-year award (2002-2005) from the National Science Foundation. The goal of the program is to increase minority participation and success in the geosciences. The program seeks to enrich the educational experience by introducing students at all levels (individual and team) to research in the geosciences (such as data analysis for earthquake hazards for 1994 Northridge event, paleoseismology of San Andreas fault, Waipaoa, New Zealand sedimentary system and provenance studies, and the Barstow formation geochronology and geochemistry), and to decrease obstacles that affect academic success. Both these goals are largely achieved by the formation of integrated high school, undergraduate, and graduate research groups, which also provide fulfilling and successful peer mentorship. New participants first complete a specially designed course that introduces them to peer-mentoring, collaborative learning (think-pair share), and research on geological data sets. Students of all experience levels then become members of research teams and conduct four mini-projects and associated poster presentations, which deepens academic and research skills as well as peer-mentor relationships. This initial research experience has been very beneficial for the student's degree requirements of a senior research project and oral presentation. Evaluation strategies include the student research course presentations, summer field projects, and external review of student experiences. The Catalyst Program provides significant financial support to participants to allow them to focus their time on their education. A component of peer-tutoring has been implemented for promoting additional student success. The program has been highly successful in its two year development. To date, undergraduates and graduate students have coauthored six abstracts at professional meetings. Also, high-school students have gained first hand experience of a college course and geologic research.

[Environmental Hazards Assessment Program annual report, June 1992--June 1993]. Summer undergraduate research program: Environmental studies

DOE Office of Scientific and Technical Information (OSTI.GOV)

McMillan, J.

1993-12-01

The purpose of the summer undergraduate internship program for research in environmental studies is to provide an opportunity for well-qualified students to undertake an original research project as an apprentice to an active research scientist in basic environmental research. Ten students from throughout the midwestern and eastern areas of the country were accepted into the program. These students selected projects in the areas of marine sciences, biostatistics and epidemiology, and toxicology. The research experience for all these students and their mentors was very positive. The seminars were well attended and the students showed their interest in the presentations and environmentalmore » sciences as a whole by presenting the speakers with thoughtful and intuitive questions. This report contains the research project written presentations prepared by the student interns.« less

Parallel Symmetric Eigenvalue Problem Solvers

DTIC Science & Technology

2015-05-01

get research, tutoring, and mentoring experience as an undergraduate. Last but not least, I thank my family for their love and support. v TABLE OF...32 4.6.2 Choice of the Ritz shifts . . . . . . . . . . . . . . . . . . . . 37 4.7 Relationship between...pencil. I will conclude with a discussion of the relationship between Trace- Min and simultaneous iteration. If both methods solve the linear systems

Natural Mentoring Relationships and the Adjustment to College among Underrepresented Students.

PubMed

Hurd, Noelle M; Tan, Joseph S; Loeb, Emily L

2016-06-01

This study investigated associations between natural mentoring relationships and academic performance via psychological distress among underrepresented college students attending an elite predominantly White institution (PWI). Specifically, this study explored whether the quantity of natural mentors possessed upon college entry, the retention of natural mentors across the first year of college, and overall changes in the number of natural mentors possessed during the first year of college predicted improvements in students' semester grade point averages (GPAs) via reductions in psychological distress. Participants in this study included 336 first-year undergraduate students attending a selective PWI. Students were eligible to participate in this study if they were first-generation college students, students from economically disadvantaged backgrounds, or students from underrepresented racial/ethnic minority groups. Results of this study indicated that a greater number of retained natural mentoring relationships across the first year of college were associated with improvements in students' GPAs via reductions in symptoms of depression from the Fall to Spring semester. The results of this study suggest that institutional efforts to support the maintenance of preexisting mentoring relationships may be an effective approach to promoting the academic success of underrepresented college students during the first year of college. © Society for Community Research and Action 2016.

Increasing Diversity in Global Climate Change Research for Undergraduates

NASA Astrophysics Data System (ADS)

Johnson, L. P.; Marchese, P.; Carlson, B. E.; Howard, A. M.; Peteet, D. M.; Rosenzweig, C.; Druyan, L. M.; Fulakeza, M.; Gaffin, S.; Austin, S. A.; Cheung, T. D.; Damas, M. C.; Boxe, C.; Prince, T.; Ng, C.; Frost, J.

2014-12-01

Global Climate Change and the ability to predict the effects of forcings and feedback mechanisms on global and local climate are critical to the survival of the inhabitants of planet Earth. It is therefore important to motivate students to continue their studies towards advanced degrees and pursue careers related to climate change. This is best accomplished by involving undergraduates in global climate change research. This Research Experience for Undergraduates (REU) initiative is based at the City University of New York (CUNY) and the Goddard Institute for Space Studies (GISS), and is supported by NASA and NSF. Mentors for the primarily summer research experiences include CUNY faculty and GISS scientists. Research topics include the Wetland Carbon Project, The Cooling Power Of Urban Vegetation, Internal Ocean Mixing, El Niño Southern Oscillation, Pollution Transport and Tropospheric Ozone. Students are recruited from CUNY colleges and other colleges and universities. The program maintains an emphasis on under-represented minorities and females. Approximately sixty percent of the undergraduate students are under-represented minorities and forty percent are female. The project is supported by NSF award AGS-1359293 REU Site: CUNY/GISS Center for Global Climate Research.

Year-Long Peer Mentoring Activity to Enhance the Retention of Freshmen STEM Students in a NSF Scholarship Program

ERIC Educational Resources Information Center

Cutright, Teresa J.; Evans, Edward

2016-01-01

The last year of a National Science Foundation (NSF) funded scholarship program was used to provide pseudo-formal peer mentoring activities to engineering, mathematics, and science undergraduates. A one-credit class was used to afford time for peer mentors and mentees to interact. During the fall semester, seniors augmented each week's topics with…

Mentoring Nontraditional Undergraduate Students: A Case Study in Higher Education

ERIC Educational Resources Information Center

Langer, Arthur M.

2010-01-01

The purpose of this study was to investigate an institution that has mandated mentoring as part of its mission and to examine students' perceptions of the mentoring received. The author selected Empire State College (ESC), a college that is part of the State of New York University system in the United States. Empire State is an institution with a…

The Undergraduate Teaching Assistant Experience Offers Opportunities Similar to the Undergraduate Research Experience†

PubMed Central

Schalk, Kelly A.; McGinnis, J. Randy; Harring, Jeffrey R.; Hendrickson, Amy; Smith, Ann C.

2009-01-01

There has been a growing concern in higher education about our failure to produce scientifically trained workers and scientifically literate citizens. Active-learning and research-oriented activities are posited as ways to give students a deeper understanding of science. We report on an undergraduate teaching assistant (UTA) experience and suggest that students who participate as a UTA obtain benefits analogous to those who participate as an undergraduate research assistant (URA). We examined the experiences of 24 undergraduates acting as UTAs in a general microbiology course. Self-reported gains by the UTAs were supported by observational data from undergraduates in the course who were mentored by the UTAs and by the graduate teaching assistants (GTAs) with whom the UTAs worked. Specifically, data from the UTAs’ journals and self-reported Likert scales and rubrics indicated that our teaching assistants developed professional characteristics such as self-confidence and communication and leadership skills, while they acquired knowledge of microbiology content and laboratory skills. Data from the undergraduate Likert scale as well as the pre- and post-GTA rubrics further confirmed our UTA’s data interpretations. These findings are significant because they offer empirical data to support the suggestion that the UTA experience is an effective option for developing skills and knowledge in undergraduates that are essential for careers in science. The UTA experience provides a valuable alternative to the URA experience. PMID:23653688

Team research at the biology-mathematics interface: project management perspectives.

PubMed

Milton, John G; Radunskaya, Ami E; Lee, Arthur H; de Pillis, Lisette G; Bartlett, Diana F

2010-01-01

The success of interdisciplinary research teams depends largely upon skills related to team performance. We evaluated student and team performance for undergraduate biology and mathematics students who participated in summer research projects conducted in off-campus laboratories. The student teams were composed of a student with a mathematics background and an experimentally oriented biology student. The team mentors typically ranked the students' performance very good to excellent over a range of attributes that included creativity and ability to conduct independent research. However, the research teams experienced problems meeting prespecified deadlines due to poor time and project management skills. Because time and project management skills can be readily taught and moreover typically reflect good research practices, simple modifications should be made to undergraduate curricula so that the promise of initiatives, such as MATH-BIO 2010, can be implemented.

AstroCom NYC: A Partnership Between Astronomers at CUNY, AMNH, and Columbia University

NASA Astrophysics Data System (ADS)

Paglione, Timothy; Ford, K. S.; Robbins, D.; Mac Low, M.; Agueros, M. A.

2014-01-01

AstroCom NYC is a new program designed to improve urban minority student access to opportunities in astrophysical research by greatly enhancing partnerships between research astronomers in New York City. The partners are minority serving institutions of the City University of New York, and the astrophysics research departments of the American Museum of Natural History and Columbia. AstroCom NYC provides centralized, personalized mentoring as well as financial and academic support, to CUNY undergraduates throughout their studies, plus the resources and opportunities to further CUNY faculty research with students. The goal is that students’ residency at AMNH helps them build a sense of belonging in the field, and inspires and prepares them for graduate study. AstroCom NYC prepares students for research with a rigorous Methods of Scientific Research course developed specifically to this purpose, a laptop, a research mentor, career mentor, involvement in Columbia outreach activities, scholarships and stipends, Metrocards, and regular assessment for maximum effectiveness. Stipends in part alleviate the burdens at home typical for CUNY students so they may concentrate on their academic success. AMNH serves as the central hub for our faculty and students, who are otherwise dispersed among all five boroughs of the City. With our first cohort we experienced the expected challenges from their diverse preparedness, but also far greater than anticipated challenges in scheduling, academic advisement, and molding their expectations. We review Year 1 operations and outcomes, as well as plans for Year 2, when our current students progress to be peer mentors.

Ethics Instruction in Undergraduate Astronomy and Physics

NASA Astrophysics Data System (ADS)

Pilachowski, Catherine A.; van Zee, L.; Bacher, A. D.; Durisen, R. H.

2009-01-01

Instruction in research ethics is now included as part of the formal undergraduate curriculum in astronomy and physics at Indiana University. Traditionally, students learn research ethics through informal mentoring by research advisors. However, a more formal approach is encouraged by funding agencies, professional societies, and common sense. Following the booklet, "On Being a Scientist: Responsible Conduct in Research" (1995, National Academy Press), our ethics program is built around a "case study" approach using scenarios involving real life situations that students are likely to encounter as undergraduates or beginning graduate students. Students discuss possible resolutions of the ethical questions involved. Discussion topics include reporting data, data rights, credit for ideas, and professional behavior. Scenarios for graduate students involve ethical concerns more appropriate for their career stage, including conflicts of interest, authorship, and collaboration. The answers are not clear-cut, and students must grapple with shades of gray to help them define what the limits of ethical behavior are. The scenarios are available on the Web at www.astro.indiana.edu/education/ethics.html

PEER DEVELOPMENT OF UNDERGRADUATE ASTRONOMERS AND PHYSICISTS AT THE UNIVERSITY OF WISCONSIN - MADISON

NASA Astrophysics Data System (ADS)

Abler, Melissa; UW-Madison, Physics Club of

2014-01-01

The physics club at the University of Wisconsin - Madison is actively engaged in many peer-led activities that foster development of career-oriented skills. The Garage Physics program utilizes old, unwanted laboratory equipment to enable students’ in-depth exploration of classroom experiments and to investigate their own ideas. The ability to explore individual interests independently further develops research skills and assists in students’ retention of classroom knowledge. The finished products are then presented to the public at various science education and outreach events throughout the community. Sharing self-motivated projects with the public not only enhances public knowledge, understanding, and interest, but also develops valuable communication skills in the students. A self-developed introductory research guidebook helps younger club members find a mentor in the astronomy or physics departments and begin working in a research group. Senior undergraduate students also facilitate a panel each semester to discuss their experiences in acquiring and maintaining an undergraduate research position.

The National Astronomy Consortium (NAC) - Overview

NASA Astrophysics Data System (ADS)

Sheth, Kartik; Mills, Elisabeth A. C.; Hooper, Eric; National Astronomy Consortium

2015-01-01

The National Astronomy Consortium (NAC; see https://sites.google.com/site/nraonac/) is a growing national partnership between majority and minority universities and institutions with the goal of increasing the numbers of under-represented minorities and students who might otherwise be overlooked by the traditional academic pipeline into STEM, or related, careers. The NAC model is based on the successful 'Posse Foundation' model for undergraduate success and incorporates all its major components: pre-training of cohorts to prepare them for the research experience, joint weekly cohort activities throughout the research summer, peer- and multiple mentoring, weekly discussion of various aspects of professional and career development, continued engagement of students in science after return to home institution and lifelong mentoring. The mentors also form a cohort, exchanging information and learning from each other. With its partner institutions, the NAC aims to build a complete pipeline from undergraduate through career for the next generation of scientists and engineers. Our annual goal is to create two to three cohorts of four to five students at each site (currently NRAO-Charlottesville, NRAO-Socorro and U. Wisconsin - Madison). Recruitment occurs in the fall semester with seminars and colloquia in partnership with faculty at the minority serving institutions and the GRAD-MAP program at the University of Maryland. In this talk we describe in detail all the components of the NAC and report on our progress. We are keen to interact and partner with new universities and institutions and encourage them to contact the NAC at nac4stem@googlegroups.com.

A community of educators: professional development for graduate students within the Berkeley Compass Project

NASA Astrophysics Data System (ADS)

Schwab, Josiah; Roth, Nathaniel; Berkeley Compass Project

2015-01-01

The Berkeley Compass Project is a self-formed group of graduate and undergraduate students in the physical sciences at UC Berkeley. Our goals are to improve undergraduate physics education, provide opportunities for professional development, and increase retention of students from populations typically underrepresented in the physical sciences. Graduate students, together with upper-level undergraduates, design and run all Compass programs. We strive to create a community of educators that incorporates best practices from the science education literature. Along the way, we develop experience in curriculum development, fundraising, grant writing, interfacing with university administration, and other aspects of running an effective organization. Our experience in Compass leaves us better poised to be successful researchers, teachers, and mentors.

Lessons Learned in Developing Research Opportunities for Native American Undergraduate Students: The GEMscholars Project

NASA Astrophysics Data System (ADS)

Zurn-Birkhimer, S. M.; Filley, T. R.; Kroeger, T. J.

2008-12-01

Interventions for the well-documented national deficiency of underrepresented students in higher education have focused primarily on the undergraduate student population with significantly less attention given to issues of diversity within graduate programs. As a result, we have made little progress in transforming faculty composition to better reflect the nation's diversity resulting in relatively few minority mentors joining faculty ranks and schools falling short of the broader representation to create an enriched, diverse academic environment. The GEMscholars (Geology, Environmental Science and Meteorology scholars) Program began in the summer of 2006 with the goal of increasing the number of Native American students pursuing graduate degrees in the geosciences. We drew on research from Native American student education models to address three key themes of (a) mentoring, (b) culturally relevant valuations of geosciences and possible career paths, and (c) connections to community and family. A collaboration between Purdue University, West Lafayette, IN and three institutions in northern Minnesota; Bemidji State University, Red Lake Nation College and Leech Lake Tribal College, is structured to develop research opportunities and a support network for Native American undergraduate students (called GEMscholars) to participate in summer geoscience research projects in their home communities. Research opportunities were specifically chosen to have cultural relevance and yield locally important findings. The GEMscholars work on projects that directly link to their local ecosystems and permit them to engage in long term monitoring and cohesive interaction among each successive year's participants. For example, the GEMscholars have established and now maintain permanent field monitoring plots to assess the impacts of invasive European earthworm activity on forest ecosystem health. The culmination of the summer project is the GEMscholars Symposium at Purdue University where the GEMscholars present their research findings to the academic community. Initial results from formative evaluations have been promising and allowed for two iterations of program modifications. The research team has turned "lessons learned" into best practices for developing research opportunities for Native American undergraduate students. Best practices include (a) developing and maintaining tribal relations, (b) creating projects that are exciting for the students and relevant to the community, and (c) maintaining constructive and positive student contact.

The Python Project: A Unique Model for Extending Research Opportunities to Undergraduate Students

PubMed Central

Harvey, Pamela A.; Wall, Christopher; Luckey, Stephen W.; Langer, Stephen

2014-01-01

Undergraduate science education curricula are traditionally composed of didactic instruction with a small number of laboratory courses that provide introductory training in research techniques. Research on learning methodologies suggests this model is relatively ineffective, whereas participation in independent research projects promotes enhanced knowledge acquisition and improves retention of students in science. However, availability of faculty mentors and limited departmental budgets prevent the majority of students from participating in research. A need therefore exists for this important component in undergraduate education in both small and large university settings. A course was designed to provide students with the opportunity to engage in a research project in a classroom setting. Importantly, the course collaborates with a sponsor's laboratory, producing a symbiotic relationship between the classroom and the laboratory and an evolving course curriculum. Students conduct a novel gene expression study, with their collective data being relevant to the ongoing research project in the sponsor's lab. The success of this course was assessed based on the quality of the data produced by the students, student perception data, student learning gains, and on whether the course promoted interest in and preparation for careers in science. In this paper, we describe the strategies and outcomes of this course, which represents a model for efficiently providing research opportunities to undergraduates. PMID:25452492

The Year of the Solar System Undergraduate Research Conference: Bringing Student Researchers and Scientists Together in a Professional Conference Setting

NASA Astrophysics Data System (ADS)

Shaner, A. J.; Buxner, S.; Joseph, E.; CoBabe-Ammann, E.

2015-12-01

The Year of the Solar System (YSS) Undergraduate Research Conference (URC) brought together undergraduate researchers from across the U.S. to interact with each other and with researchers in planetary science. Held in conjunction with the Lunar and Planetary Science Conference (2011-2014), the YSS URC provided undergraduate researchers the opportunity to present to their research to their peers, and provided practicing scientists the chance to connect with students. Scientists could interact with students in multiple ways. Some provided insight into a planetary science career as an invited panelist; panel topics being 1) Choosing the Graduate School That's Right for You, 2) Women in Planetary Science, and 3) Alternative Careers in Science. Others provided feedback to students on their research during the URC poster session, and still others served as Meeting Mentors during the first day of LPSC. Over the four years of the program more than 50 scientists across NASA, academia and industry participated in the URC. Scientists reported in follow-up evaluations that they participated because they felt it was important to meet and help students, and that it was a way to serve the community. More evaluation data, and instruments, will be discussed.

Undergraduate Research Experiences in Support of Dryland Monitoring: Field and Satellite Remote Sensing of Change in Savanna Structure, Biomass, and Carbon after Prescribed Fires

NASA Astrophysics Data System (ADS)

Washington-Allen, R. A.; Twidwell, D. L., Jr.; Mendieta, V. P.; Delgado, A.; Redman, B.; Trollope, W. S.; Trollope, L.; Govender, N.; Smit, I.; Popescu, S. C.; de Bruno Austin, C.; Reeves, M. C.

2009-12-01

The status and trend of degradation in the world’s Drylands, that support over 1.2 billion people, is unknown because monitoring & assessment has not occurred on a globally consistent basis and skilled personnel with a cultivated interest in natural resource science and management are lacking. A major monitoring dataset is the 37-year Landsat data archive that has been released free to the world, but this dataset requires persons who understand how to process and interpret this and similar datasets applicable to the desertification problem. The College of Agriculture & Life Sciences (COALS) at Texas A&M University (TAMU) has an initiative to provide undergraduates with both international and research experiences. The lead author used start-up money, USFS project funds for livestock footprint studies in the US, and seed money from COALS to 1) develop academic mentor contacts in Mozambique, Namibia, Botswana, South Africa, and Tunisia to prepare a National Science Foundation Research Experience for Undergraduates (NSF-REU) Site proposal and 2) launch a pilot REU for two TAMU undergraduate students. Mr. Delgado and Mr. Redman received lidar processing and visualization, field survey training on global positioning systems (GPS), terrestrial LIDAR, and ground penetrating radar technologies and conducted carbon change studies by collecting pre- and post-fire laser scans on experimental burn (EPB) sites in Texas and South Africa. Mr. Redman also developed GIS databases of Landsat timeseries for these EPBs and others in southern Africa. Mr. Delgado participated in the Savanna Fire Ignition Research Experiment (SavFIRE) in Kruger National Park (KNP) by collected laser scan data on 3 EPBs. He also received mentoring from Dr. Winston Trollope, a prominent fire ecologist, and Mr. Chris Austin both of Working with Fire International and Navashni Govender, KNP’s Fire Ecologist. He also was an active participant in a NASA sponsored workshop on remote sensing of global savannas.

5 years of experience with a large-scale mentoring program for medical students.

PubMed

Pinilla, Severin; Pander, Tanja; von der Borch, Philip; Fischer, Martin R; Dimitriadis, Konstantinos

2015-01-01

In this paper we present our 5-year-experience with a large-scale mentoring program for undergraduate medical students at the Ludwig Maximilians-Universität Munich (LMU). We implemented a two-tiered program with a peer-mentoring concept for preclinical students and a 1:1-mentoring concept for clinical students aided by a fully automated online-based matching algorithm. Approximately 20-30% of each student cohort participates in our voluntary mentoring program. Defining ideal program evaluation strategies, recruiting mentors from beyond the academic environment and accounting for the mentoring network reality remain challenging. We conclude that a two-tiered program is well accepted by students and faculty. In addition the online-based matching seems to be effective for large-scale mentoring programs.

NASA's Student Airborne Research Program as a model for effective professional development experience in Oceanography

NASA Astrophysics Data System (ADS)

Palacios, S. L.; Kudela, R. M.; Clinton, N. E.; Atkins, N.; Austerberry, D.; Johnson, M.; McGonigle, J.; McIntosh, K.; O'Shea, J. J.; Shirshikova, Z.; Singer, N.; Snow, A.; Woods, R.; Schaller, E.; Shetter, R. E.

2011-12-01

With over half of the current earth and space science workforce expected to retire within the next 15 years, NASA has responded by cultivating young minds through programs such as the Student Airborne Research Program (SARP). SARP is a competitive internship that introduces upper-level undergraduates and early graduate students to Earth System Science research and NASA's Airborne Science Program. The program serves as a model for recruitment of very high caliber students into the scientific workforce. Its uniqueness derives from total vertical integration of hands-on experience at every stage of airborne science: aircraft instrumentation, flight planning, mission participation, field-work, analysis, and reporting of results in a competitive environment. At the conclusion of the program, students presented their work to NASA administrators, faculty, mentors, and the other participants with the incentive of being selected as best talk and earning a trip to the fall AGU meeting to present their work at the NASA booth. We hope lessons learned can inform the decisions of scientists at the highest levels seeking to broaden the appeal of research. In 2011, SARP was divided into three disciplinary themes: Oceanography, Land Use, and Atmospheric Chemistry. Each research group was mentored by an upper-level graduate student who was supervised by an expert faculty member. A coordinator managed the program and was supervised by a senior research scientist/administrator. The program is a model of knowledge transfer among the several levels of research: agency administration to the program coordinator, established scientific experts to the research mentors, and the research mentors to the pre-career student participants. The outcomes from this program include mission planning and institutional knowledge transfer from administrators and expert scientists to the coordinator and research mentors; personnel and project management from the coordinator and expert scientists to the research mentors; and scholarship and training in specific analytical techniques for Earth Science research from the mentors to the student participants. Across every level, the program allowed for networking and career advice to help students gain entry to future job or graduate school opportunities. This poster details "engaging the next generation" by highlighting specific research questions proposed and developed by the students in the Oceanography group.

Partnerships for building strong internship and research experiences for undergraduates

NASA Astrophysics Data System (ADS)

Goehring, L.; Haacker-Santos, R.; Dutilly, E.

2013-12-01

REU and internship site directors often operate in geographic and institutional isolation from each other, unable to share best practices or resources. When collaboration is possible, benefits for both the students and leaders of these programs can be achieved. In 2013, the SOARS REU program, hosted at the National Center for Atmospheric Research (NCAR), supported the National Ecological Observatory Network (NEON) in creating a new internship program aimed at engaging undergraduate science and engineering students in NEON's work. Both student programs share the objective of reaching underrepresented groups in STEM. The year long collaboration allowed NEON to learn best practices in recruitment and support of students, mentor training, and program development, and to customize its internship according to its organization i.e., a science/engineering observatory under construction. Both programs shared several elements: students were housed together so that interns could tap into a larger cohort of supportive peers; students participated in a joint leadership training to strengthen cross program mentoring; and students met weekly for a scientific communications workshop. Having multiple science disciplines represented enhanced the workshop as students learned about writing styles and cultures of each other's fields, fostering an appreciation of different scientific disciplines and interdisciplinary thinking. Finally, at the end of the summer, students presented their findings in a joint poster session. We found that collaboration between programs led to increased recruitment of students from diverse backgrounds and support of students through stronger cohorts, shared trainings, and enhanced program content. In this presentation we share findings of our programs' evaluations and make recommendations on building collaborative partnerships for internships and research experiences for undergraduates.

Chasing Carbon Down the Colorado River: Mid-Stream Challenges to Engaging Undergraduates in Field-Based Research

NASA Astrophysics Data System (ADS)

Hartnett, H. E.

2011-12-01

Many undergraduates express strong interests in research and in interdisciplinary sciences and yet, when it comes down to learning interdisciplinary material they are either unprepared for or overwhelmed by the complex interactions and relationships inherent in studying biogeochemical systems. My NSF-CAREER project "Transformation and transport of Organic Carbon in the Colorado River-Reservoir System" (EAR #0846188) combines field research with state-of-the-art analytical techniques to explore the source, fate and transport of terrestrial and riverine organic carbon in a heavily managed river system. In an effort to get undergraduates involved in research where they can really get their feet wet, I have been engaging undergraduates in a variety of field research projects that examine carbon biogeochemistry in the Colorado River watershed. The goal is to provide opportunities for students in Chemistry and in the Earth Sciences to directly experience the complexity of an environmental system, and to begin to ask manageable research questions that can be answered through field and lab work. These students are involved either as undergraduate research assistants, or as participants in my Field Geochemistry course which is offered through both the Dept. of Chemistry and the School of Earth and Space Exploration. There have been some unexpected challenges to getting these field-research projects started, but students are now successfully developing independent questions related to the larger scientific goals of the project and executing experimental and analytical research projects. To date, the PI has mentored 6 undergraduates and 2 graduate students as part of this project.

Alliance for Computational Science Collaboration HBCU Partnership at Fisk University. Final Report 2001

DOE Office of Scientific and Technical Information (OSTI.GOV)

Collins, W. E.

2004-08-16

Computational Science plays a big role in research and development in mathematics, science, engineering and biomedical disciplines. The Alliance for Computational Science Collaboration (ACSC) has the goal of training African-American and other minority scientists in the computational science field for eventual employment with the Department of Energy (DOE). The involvements of Historically Black Colleges and Universities (HBCU) in the Alliance provide avenues for producing future DOE African-American scientists. Fisk University has been participating in this program through grants from the DOE. The DOE grant supported computational science activities at Fisk University. The research areas included energy related projects, distributed computing,more » visualization of scientific systems and biomedical computing. Students' involvement in computational science research included undergraduate summer research at Oak Ridge National Lab, on-campus research involving the participation of undergraduates, participation of undergraduate and faculty members in workshops, and mentoring of students. These activities enhanced research and education in computational science, thereby adding to Fisk University's spectrum of research and educational capabilities. Among the successes of the computational science activities are the acceptance of three undergraduate students to graduate schools with full scholarships beginning fall 2002 (one for master degree program and two for Doctoral degree program).« less

An intensive primary-literature-based teaching program directly benefits undergraduate science majors and facilitates their transition to doctoral programs.

PubMed

Kozeracki, Carol A; Carey, Michael F; Colicelli, John; Levis-Fitzgerald, Marc; Grossel, Martha

2006-01-01

UCLA's Howard Hughes Undergraduate Research Program (HHURP), a collaboration between the College of Letters and Science and the School of Medicine, trains a group of highly motivated undergraduates through mentored research enhanced by a rigorous seminar course. The course is centered on the presentation and critical analysis of scientific journal articles as well as the students' own research. This article describes the components and objectives of the HHURP and discusses the results of three program assessments: annual student evaluations, interviews with UCLA professors who served as research advisors for HHURP scholars, and a survey of program alumni. Students indicate that the program increased their ability to read and present primary scientific research and to present their own research and enhanced their research experience at UCLA. After graduating, they find their involvement in the HHURP helped them in securing admission to the graduate program of their choice and provided them with an advantage over their peers in the interactive seminars that are the foundation of graduate education. On the basis of the assessment of the program from 1998-1999 to 2004-2005, we conclude that an intensive literature-based training program increases student confidence and scientific literacy during their undergraduate years and facilitates their transition to postgraduate study.

Innovating for Student Success: The University Leadership Network (ULN) and Tiered Undergraduate Peer Mentor Model

ERIC Educational Resources Information Center

Smith, Jennifer L.

2017-01-01

This paper highlights the innovative approach the Student Success Initiative's unit at the University of Texas at Austin is taking to increase undergraduate persistence and four-year graduation rates. Specifically, this piece explores the large-scale University Leadership Network (ULN) program and examines the tiered undergraduate peer mentor…

Mentornet - E-Mentoring for Women Students in Engineering and Science

NASA Astrophysics Data System (ADS)

Single, Peg Boyle; Muller, Carol B.; Cunningham, Christine M.; Single, Richard M.; Carlsen, William S.

MentorNet www.MentorNet.net;, the E-Mentoring Network for Diversity in Engineering and Science, addresses the underrepresentation of women in science, technology, engineering, and mathematics "STEM". MentorNet offers a multiinstitutional, structured, electronic mentoring "e-mentoring" program that pairs undergraduate and graduate students, primarily women, with professionals and supports them through e-mentoring relationships of specified lengths. The program evaluations established that over 90% of the participants would recommend MentorNet to a friend or colleague. The e-mentoring program allowed participants to establish satisfactory and beneficial e-mentoring relationships based on investments of approximately 20 minutes per week - in between more serious exchanges, email exchanges that included light-hearted social interactions and jokes were an important aspect of sustaining e-mentoring relationships. Participation in MentorNet increased the students' self-confidence in their f elds - desire to obtain work in industry, national laboratories, or national agencies; and intent to pursue careers in their fields. Three years of evaluation results support the need for and efficacy of the program.

The Educational Function of an Astronomy Research Experience for Undergraduates Program as Described by Female Participants

NASA Astrophysics Data System (ADS)

Slater, Stephanie

2010-01-01

The long-running REU-program is tacitly intended to increase retention and provide "an important educational experience" for undergraduates, particularly women, minorities and underrepresented groups. This longitudinal, two-stage study was designed to explore the ways in which the REU acted as an educational experience for 51 women in the field of astronomy. Stage-1 consisted of an ex post facto analysis of data collected over 8 years, including multiple interviews with each participant during their REU, annual open-ended alumni surveys, faculty interviews, and extensive field notes. Four themes emerged, related to developing understandings of the nature of professional scientific work, the scientific process, the culture of academia, and an understanding of the "self." Analysis provided an initial theory that was used to design the Stage-2 interview protocol. In Stage-2, over 10 hours of interviews were conducted with 8 participants selected for their potential to disconfirm the initial theory. Results indicate that the REU provided a limited impact in terms of participants’ knowledge of professional astronomy as a largely computer-based endeavor. The REU did not provide a substantive educational experience related to the nature of scientific work, the scientific process, the culture of academia, participants' conceptions about themselves as situated in science, or other aspects of the "self,” were limited. Instead, the data suggests that these women began the REU with pre-existing and remarkably strong conceptions in these areas, and that the REU did not functional to alter those states. These conceptions were frequently associated with other mentors/scientist interactions, from middle school into the undergraduate years. Instructors and family members also served as crucial forces in shaping highly developed, stable science identities. Sustained relationships with mentors were particularly transformational. These findings motivate an ongoing research agenda of long-term mentoring relationships for women in the sciences, at a variety of stages and across multiple disciplines.

Promoting Physical Understanding through Peer Mentoring

NASA Astrophysics Data System (ADS)

Nossal, S. M.; Huesmann, A.; Hooper, E.; Moore, C.; Watson, L.; Trestrail, A.; Weber, J.; Timbie, P.; Jacob, A.

2015-12-01

The Physics Learning Center at the University of Wisconsin-Madison provides a supportive learning community for students studying introductory physics, as well as teaching and leadership experience for undergraduate Peer Mentor Tutors who receive extensive training and supervision. Many of our Peer Tutors were former Physics Learning Center participants. A central goal of the Physics Learning Center is to address achievement/equity gaps (e.g. race, gender, socio-economic status, disability, age, transfer status, etc.) for undergraduate students pursuing majors and coursework in STEM fields. Students meet twice a week in small learning teams of 3-8 students, facilitated by a trained Peer Mentor Tutor or staff member. These active learning teams focus on discussing core physical concepts and practicing problem-solving. The weekly training of the tutors addresses both teaching and mentoring issues in science education such as helping students to build confidence, strategies for assessing student understanding, and fostering a growth mindset. A second weekly training meeting addresses common misconceptions and strategies for teaching specific physics topics. For non-science majors we have a small Peer Mentor Tutor program for Physics in the Arts. We will discuss the Physics Learning Center's approaches to promoting inclusion, understanding, and confidence for both our participants and Peer Mentor Tutors, as well as examples from the geosciences that can be used to illustrate introductory physics concepts.

Evaluating Maternal and Child Health and Leadership Competencies of Emerging MCH Leaders: The MCHC/RISE-UP Experience.

PubMed

Belcher, Harolyn M E; Stone, Jacqueline D; McFadden, Jenese A; Hemmingson, Tyler A; Kreutzer, Cary; Harris, Lisa G; Wheeler, Barbara Y; Van Osdel, Joanne; Avila, Margaret; Yorker, Beatrice; Hoffman, Beth R; Turner-Musa, Jocelyn O

2015-12-01

This study examines maternal and child health core competencies and leadership characteristics of undergraduate students following participation in the Maternal and Child Health Careers/Research Initiatives for Student Enhancement-Undergraduate Program (MCHC/RISE-UP). MCHC/RISE-UP is a 10-week public health leadership program designed to promote diversity in public health workforce through mentored research, community engagement and advocacy, and clinical experiences for undergraduate students. The MCHC/RISE-UP is a national consortium of University Centers for Excellence in Developmental Disabilities including, (1) Kennedy Krieger Institute (Kennedy Krieger, lead institution) partnering with Morgan State University, a Historically Black University, (2) the University of South Dakota partnering with Tribal Serving Institutions; and (3) the University of Southern California Children's Hospital-Los Angeles and their partner institution, California State University Los Angeles, a Hispanic Serving Institution. Eighty-four junior and senior undergraduates and recent baccalaureate degree students who participated in the MCHC/RISE-UP worked on 48 maternal and child health projects. Following the MCHC/RISE-UP, students demonstrated statistically significant improvements in all maternal and child health core competencies. Transformational leadership characteristics also increased (mean increase 9.4, 95% CI 7.2-11.8; p < 0.001). At closing interview, over twice as many students endorsed a public health career goal compared to program admission (17.9 vs. 57.7%; p = 0.022). Multi-institutional collaborative public health leadership programs may extend the reach and recruitment of diverse students into the maternal and child health field. Experiential, didactic, and mentored learning opportunities may enhance student integration of maternal and child health competencies and transformational leadership characteristics.

Building the Quality of Diversity in the Geoscience Workforce Through Peer-and Near-Peer Mentored Research Experiences: The CSUN Catalyst Program, a Model for Success in the Geosciences

NASA Astrophysics Data System (ADS)

Marsaglia, K. M.; Pedone, V. A.; Simila, G. W.; Yule, J. D.

2004-12-01

One means of achieving diversity in the geoscience workforce is through the careful cultivation of individuals towards successful careers. Our critical components for student achievement, as reflected in student evaluations, included the development of positive mentoring relationships, honing of critical thinking, writing and oral presentation skills, academic success, and financial support. In the initial three-year phase of in the California State University Northridge (CSUN) Catalyst program, thirty-one students participated, with subequal proportions of high school, undergraduate (freshman to senior) and graduate students. This initial cohort was dominated by Latina(o) students (22) with fewer African American (5), American Indian (2), Pacific Islander (1) and hearing-impaired (1) students. Students were incrementally recruited into the program at a rate of ~10 per year. New students were united through a semester-long Catalyst Course where they worked in groups on various team-building exercises followed by activities in which students were introduced to four different research projects by faculty advisors. Students then continued working on a research project in the following semesters, either as undergraduate or graduate research assistants. The research groups constituted self-mentoring subsets of peers and near-peers, tiered by experience (graduate to high school students) and directed by one of the four Catalyst faculty members. Catalyst student office space promoted intragroup interaction and camaraderie. Most students attended at least one regional, national or international Geoscience meeting. The CSUN Catalyst program has fostered the individual success of its participants, with most progressing towards or achieving BS and MS degrees in the geosciences. Those that have entered the workforce, have done so with more opportunities for career advancement as a result of their Catalyst experiences. Catalyst students have also advanced academically into MS and PhD programs. The research-focussed Catalyst program has therefore succeeded in building quality and diversity in the Geoscience community.

Research Experience for Undergraduates: Understanding the Arctic as a System

NASA Astrophysics Data System (ADS)

Alexeev, V. A.; Walsh, J. E.; Arp, C. D.; Hock, R.; Euskirchen, E. S.; Kaden, U.; Polyakov, I.; Romanovsky, V. E.; Trainor, S.

2017-12-01

Today, more than ever, an integrated cross-disciplinary approach is necessary to understand and explain changes in the Arctic and the implications of those changes. Responding to needs in innovative research and education for understanding high-latitude rapid climate change, scientists at the International Arctic research Center of the University of Alaska Fairbanks (UAF) established a new REU (=Research Experience for Undergraduates) NSF-funded site, aiming to attract more undergraduates to arctic sciences. The science focus of this program, building upon the research strengths of UAF, is on understanding the Arctic as a system with emphasis on its physical component. The goals, which were to disseminate new knowledge at the frontiers of polar science and to ignite the enthusiasm of the undergraduates about the Arctic, are pursued by involving undergraduate students in research and educational projects with their mentors using the available diverse on-campus capabilities. IARC hosted the first group of eight students this past summer, focusing on a variety of different disciplines of the Arctic System Science. Students visited research sites around Fairbanks and in remote parts of Alaska (Toolik Lake Field Station, Gulkana glacier, Bonanza Creek, Poker Flats, the CRREL Permafrost Tunnel and others) to see and experience first-hand how the arctic science is done. Each student worked on a research project guided by an experienced instructor. The summer program culminated with a workshop that consisted of reports from the students about their experiences and the results of their projects.

Vermont EPSCoR Streams Project: Engaging High School and Undergraduate Students in Watershed Research

NASA Astrophysics Data System (ADS)

Ray, E.; McCabe, D.; Sheldon, S.; Jankowski, K.; Haselton, L.; Luck, M.; van Houten, J.

2009-12-01

The Vermont EPSCoR Streams Project engages a diverse group of undergraduates, high school students, and their teachers in hands-on water quality research and exposes them to the process of science. The project aims to (1) recruit students to science careers and (2) create a water quality database comprised of high-quality data collected by undergraduates and high school groups. The project is the training and outreach mechanism of the Complex Systems Modeling for Environmental Problem Solving research program, an NSF-funded program at the University of Vermont (UVM) that provides computational strategies and fresh approaches for understanding how natural and built environments interact. The Streams Project trains participants to collect and analyze data from streams throughout Vermont and at limited sites in Connecticut, New York, and Puerto Rico. Participants contribute their data to an online database and use it to complete individual research projects that focus on the effect of land use and precipitation patterns on selected measures of stream water quality. All undergraduates and some high school groups are paired with a mentor, who is either a graduate student or a faculty member at UVM or other college. Each year, undergraduate students and high school groups are trained to (1) collect water and macroinvertebrate samples from streams, (2) analyze water samples for total phosphorus, bacteria, and total suspended solids in an analytical laboratory, and/or (3) use geographic information systems (GIS) to assess landscape-level data for their watersheds. After training, high school groups collect samples from stream sites on a twice-monthly basis while undergraduates conduct semi-autonomous field and laboratory research. High school groups monitor sites in two watersheds with contrasting land uses. Undergraduate projects are shaped by the interests of students and their mentors. Contribution to a common database provides students with the option to expand the scope of their analyses and produce more powerful results than any one team could have produced alone. The year of research culminates in a final project that is presented at a symposium. The project is in its second year and has received positive feedback from outside reviewers. Participants leave the project with a greater understanding of watershed research. Immediate outcomes include nearly 60 participant projects, an online publicly-accessible shared dataset, and Web-based macroinvertebrate identification keys. We found that the best training strategies make the material and concepts explicit. To this end, the project is enhancing its Web interface, which will soon include tutorials on water quality and an interactive map through which participants will have access to watershed-level spatial information such as land use, bedrock, soils, and transportation infrastructure. Ultimately, the data from the project can inform public debate and aid resource managers in implementing watershed restoration and protection projects.

Think 500, not 50! A scalable approach to student success in STEM.

PubMed

LaCourse, William R; Sutphin, Kathy Lee; Ott, Laura E; Maton, Kenneth I; McDermott, Patrice; Bieberich, Charles; Farabaugh, Philip; Rous, Philip

2017-01-01

UMBC, a diverse public research university, "builds" upon its reputation in producing highly capable undergraduate scholars to create a comprehensive new model, STEM BUILD at UMBC. This program is designed to help more students develop the skills, experience and motivation to excel in science, technology, engineering, and mathematics (STEM). This article provides an in-depth description of STEM BUILD at UMBC and provides the context of this initiative within UMBC's vision and mission. The STEM BUILD model targets promising STEM students who enter as freshmen or transfer students and do not qualify for significant university or other scholarship support. Of primary importance to this initiative are capacity, scalability, and institutional sustainability, as we distill the advantages and opportunities of UMBC's successful scholars programs and expand their application to more students. The general approach is to infuse the mentoring and training process into the fabric of the undergraduate experience while fostering community, scientific identity, and resilience. At the heart of STEM BUILD at UMBC is the development of BUILD Group Research (BGR), a sequence of experiences designed to overcome the challenges that undergraduates without programmatic support often encounter (e.g., limited internship opportunities, mentorships, and research positions for which top STEM students are favored). BUILD Training Program (BTP) Trainees serve as pioneers in this initiative, which is potentially a national model for universities as they address the call to retain and graduate more students in STEM disciplines - especially those from underrepresented groups. As such, BTP is a research study using random assignment trial methodology that focuses on the scalability and eventual incorporation of successful measures into the traditional format of the academy. Critical measures to transform institutional culture include establishing an extensive STEM Living and Learning Community to increase undergraduate retention, expanding the adoption of "active learning" pedagogies to increase the efficiency of learning, and developing programs to train researchers to effectively mentor a greater portion of the student population. The overarching goal of STEM BUILD at UMBC is to retain students in STEM majors and better prepare them for post baccalaureate, graduate, or professional programs as well as careers in biomedical and behavioral research.

Design, Implementation and Impact of the MS PHD’S Professional Development Program

NASA Astrophysics Data System (ADS)

Williamson Whitney, V.

2009-12-01

The Minorities Striving and Pursuing Higher Degrees of Success (MS PHD'S)® in Earth System Science initiative facilitates the involvement of underrepresented minority undergraduate and graduate Earth system science students in a series of activities designed to: (1) increase exposure to and engagement in the Earth system science community, via participation in scientific conferences, mentoring relationships, virtual activities, and field trips; (2) enhance professional skills, grantsmanship, oral and written communication; (3) provide funding, education and career opportunity resources; (4) facilitate networking opportunities with established researchers and educators; (5) and sustain on-going interaction, communication and support via membership within a virtual community comprised of peers, junior/senior-level researchers, and educators actively involved in facilitating full participation of minorities in the Earth system sciences. These activities, conducted in three phases, occur during professional society meetings, field trips, visits to several federal agencies, and a 'capstone' event at the National Academies. Nearly 150 Earth system science undergraduate, graduate and recent minority graduates have participated in MS PHD’S activities and are better prepared to successfully achieve their academic and professional goals. It is also expected that because of mentor-mentee partnerships, science exposure, and networking activities, MS PHD'S participants will remain actively engaged in their fields of specialization and respective professional societies. Evaluation data for MS PHD’S activities indicate that virtual and face-to-face mentoring, on-site professional development and community-building activities resulted in increased participant exposure to and engagement in the Earth system science professional community and served to better equip student participants to make informed post-baccalaureate academic and professional career decisions.

Undergraduate medical research: the student perspective

PubMed Central

Burgoyne, Louise N.; O'Flynn, Siun; Boylan, Geraldine B.

2010-01-01

Background Research training is essential in a modern undergraduate medical curriculum. Our evaluation aimed to (a) gauge students' awareness of research activities, (b) compare students' perceptions of their transferable and research-specific skills competencies, (c) determine students' motivation for research and (d) obtain students' personal views on doing research. Methods Undergraduate medical students (N=317) completed a research skills questionnaire developed by the Centre for Excellence in Teaching and Learning in Applied Undergraduate Research Skills (CETL-AURS) at Reading University. The questionnaire assessed students' transferable skills, research-specific skills (e.g., study design, data collection and data analysis), research experience and attitude and motivation towards doing research. Results The majority of students are motivated to pursue research. Graduate entrants and male students appear to be the most confident regarding their research skills competencies. Although all students recognise the role of research in medical practice, many are unaware of the medical research activities or successes within their university. Of those who report no interest in a career incorporating research, a common perception was that researchers are isolated from patients and clinical practice. Discussion Students have a narrow definition of research and what it entails. An explanation for why research competence does not align more closely with research motivation is derived from students' lack of understanding of the concept of translational research, as well as a lack of awareness of the research activity being undertaken by their teachers and mentors. We plan to address this with specific research awareness initiatives. PMID:20844608

Two Models for Implementing Senior Mentor Programs in Academic Medical Settings

ERIC Educational Resources Information Center

Corwin, Sara J.; Bates, Tovah; Cohan, Mary; Bragg, Dawn S.; Roberts, Ellen

2007-01-01

This paper compares two models of undergraduate geriatric medical education utilizing senior mentoring programs. Descriptive, comparative multiple-case study was employed analyzing program documents, archival records, and focus group data. Themes were compared for similarities and differences between the two program models. Findings indicate that…

Design Considerations in Developing a Web-Based Mentor Network.

ERIC Educational Resources Information Center

Sumner, Todd

This paper describes a Web-based mentor network designed to pair students in rural independent schools with undergraduates at selected liberal arts colleges. It is one of nine central program elements that constitute the Proteus(TM) system, a multimedia technologies architecture that supports distributed collaborations and work undertaken in the…

A Mentoring Program in Environmental Science for Underrepresented Groups

NASA Astrophysics Data System (ADS)

Stevens, L.; Rizzo, D. M.

2009-12-01

We developed a four-year program, combining educational and career support and research activities, to recruit and retain students from underrepresented groups in environmental sciences. Specifically, the program: ○ Assigns each student a faculty or graduate student mentor with whom the student conducts research activities. ○ Includes a weekly group meeting for team building and to review professional development and academic topics, such as time management and research ethics. ○ Requires students to make multiple formal presentations of their research proposals and results. ○ Provides scholarships and stipends for both the academic year and to engage students in summer research. The program seeks to achieve several goals including: ● Enhance academic performance. ● Encourage continued study in environmental science. ● Facilitate students completing their studies at UVM. ● Increase students’ interest in pursuing science careers. ● Create a more welcoming academic environment. To assess progress toward achievement of these goals, we conducted individual structured interviews with participating undergraduate students, graduate students, and faculty members at two points in time. First, interviews were conducted in the fall of 2007 after two years, and again in spring 2009, after four years. An independent research consultant, Dr. Livingston, conducted the interviews. In 2009, over the course of three days, the interviews included three graduate student and two faculty mentors, and six of the seven undergraduate students. Of the six students, three were juniors and three were graduating seniors. Results of the 2009 interviews echoed those of 2007. Both students and their mentors are quite satisfied with the program. The student presentations, weekly meetings, mentoring relationships, and summer research experiences all get high ratings from program participants. Students give high praise to their mentors and the program directors for providing excellent support. Looking at goals more specifically, we find: Improved student academic performance: Most students credit the program with a positive impact on their academic performance. Students’ continued study of environmental science: Students report increased or continued interest in environmental science as a result of participating in the program. Continued study at UVM: In both 2007 and 2009 there was a nearly unanimous report that students remain at UVM because of their involvement in the program. The program provides valuable opportunities, advisory support, community of peers, and financial stipend. It is has attracted and kept these students at this university. Increased interest in science careers: Students have been exposed to a range of science careers and credit the program with providing this exposure. Most of these students expect to pursue a career in science. Created a welcoming environment: One student specifically credits the program with increasing the number of students of color in the department. Other students credit the program with creating an environment in which students have established relationships with many faculty, certainly contributing to a welcoming atmosphere. Taken together, results indicate that the program is indeed achieving its goals.

A Course-Based Undergraduate Research Experience Investigating p300 Bromodomain Mutations#

PubMed Central

Shanle, Erin K.; Tsun, Ian K.; Strahl, Brian D.

2016-01-01

Course-based undergraduate research experiences (CUREs) provide an opportunity for students to engage in experiments with outcomes that are unknown to both the instructor and students. These experiences allow students and instructors to collaboratively bridge the research laboratory and classroom, and provide research experiences for a large number of students relative to traditional individual mentored research. Here, we describe a molecular biology CURE investigating the impact of clinically relevant mutations found in the bromodomain of the p300 transcriptional regulator on acetylated histone interaction. In the CURE, students identified missense mutations in the p300 bromo-domain using the Catalogue of Somatic Mutations in Cancer (COSMIC) database and hypothesized the effects of the mutation on the acetyl-binding function of the domain. They cloned and purified the mutated bromodomain and performed peptide pulldown assays to define its potential to bind to acetylated histones. Upon completion of the course, students showed increased confidence performing molecular techniques and reported positively on doing a research project in class. In addition, results generated in the classroom were further validated in the research laboratory setting thereby providing a new model for faculty to engage in both course-based and individual undergraduate research experiences. PMID:26537758

A Collaborative Effort to Increase Enrollment and Retention in Geoscience Majors in North Carolina

NASA Astrophysics Data System (ADS)

Thomas, C. J.; Fountain, J. C.; Bartek, C. S.; Tang, G.

2004-12-01

Under an NSF Opportunities for Enhancement of Diversity in Geosciences grant, the Department of Marine, Earth and Atmospheric Sciences at North Carolina State University partnered with NC A&T University, a HBCU, to implement a multi-faceted effort to increase enrollment and retention in geoscience majors, with particular emphasis on under represented groups. New student recruitment is facilitated by a trained graduate student who visits high schools and presents a multi-media presentation on research at NCSU and career opportunities in the geosciences. Interested high school students are then invited to participate in a hands-on, summer science camp. Community college students are recruited through a new introductory geology course developed for and offered at Robeson Community College (77% of students from under represented groups). NC A&T has developed a track in their physics curriculum to prepare students for a geophysics career. The track includes a planned semester in residence at NCSU. Students who choose to enroll at NCSU, register for an introductory course developed as part of our NSF STEP grant, Environmental Issues in Water Resources, during which geoscience careers are highlighted and in-class research focuses on a local watershed. The emphasis on undergraduate research continues with Environmental Geology, an upper division course in which the entire class studies water and sediment contamination on local watersheds. All courses developed build upon our physics department's successful model of integrating lectures and laboratories and engaging first-year students in group-oriented, undergraduate research (http://www.physics.ncsu.edu/physics_ed/). Following the group research courses, advanced undergraduate students are placed in traditional research labs with faculty mentors while participating in a career development seminar in which research methods, proposal writing and presentation skills are introduced. Tutoring and mentoring programs provide support for all majors. Formative assessment is ongoing, including pre and post surveys to assess course effectiveness and changes in attitudes toward science.

Launching native health leaders: students as community-campus ambassadors.

PubMed

Segrest, Valerie; James, Rosalina; Madrid, Teresa; Fernandes, Roger

2010-01-01

Ancient teaching styles such as storytelling can help Native students to navigate the educational pipeline, and become forces for shaping health and research landscapes. Many experience isolation on campuses where these worldviews are marginalized. Launching Native Health Leaders (LNHL) reduces academic isolation by creating an environment where students identify with Native values while exposing them to health and research career opportunities and interdisciplinary professional and community networks. Student experiences and the LNHL mentoring approach are described through phases of the Hero's Journey, a universal mythic story of human struggle and transformation. Undergraduates were recruited to attend health and research conferences through college and university student service programs. Tribal community representatives led group discussions focused on tribal health issues, and students explored intersections of indigenous knowledge with community-based participatory research (CBPR) and their educational journeys. LNHL supported more than sixty students to attend eight professional conferences since 2006 that included themes of cancer control, tribal wellness, and indigenous knowledge systems for health. Students pursuing higher degrees and community service careers participated in conference sessions, small group discussions, and reflection activities with professional and tribal community mentors. Mainstream academic systems must include indigenous voices at all levels of leadership to shift the direction of health trends. LNHL builds capacity for community-based efforts by balancing Indigenous and academic mentoring and empowering Native students to navigate their personal journeys and create pathways to serve the needs of Indigenous peoples. Students from other marginalized groups may benefit from an LNHL mentoring approach.

DHS National Technical Nuclear Forensics Program FY 10 Summary Report: Graduate Mentoring Assistance Program (GMAP)

DOE Office of Scientific and Technical Information (OSTI.GOV)

Martha R. Finck Ph.D.

2011-10-01

This program provides practical training to DHS graduate fellows in the DOE laboratory complex. It involves coordinating students, their thesis advisors, and their laboratory project mentors in establishing a meaningful program of research which contributes to the graduate student's formation as a member of the nuclear forensics community. The summary report details the student/mentor experience and future plans after the first summer practicum. This program provides practical training to DHS graduate fellows in the DOE laboratory complex. It involves coordinating students, their thesis advisors, and their laboratory project mentors in establishing a meaningful program of research which contributes to themore » graduate student's formation as a member of the nuclear forensics community. This final written report includes information concerning the overall mentoring experience, including benefits (to the lab, the mentors, and the students), challenges, student research contributions, and lab mentor interactions with students home universities. Idaho National Laboratory hosted two DHS Nuclear Forensics graduate Fellows (nuclear engineering) in summer 2011. Two more Fellows (radiochemistry) are expected to conduct research at the INL under this program starting in 2012. An undergraduate Fellow (nuclear engineering) who worked in summer 2011 at the laboratory is keenly interested in applying for the NF Graduate Fellowship this winter with the aim of returning to INL. In summary, this program appears to have great potential for success in supporting graduate level students who pursue careers in nuclear forensics. This relatively specialized field may not have been an obvious choice for some who have already shown talent in the traditional areas of chemistry or nuclear engineering. The active recruiting for this scholarship program for candidates at universities across the U.S. brings needed visibility to this field. Not only does this program offer critical practical training to these students, it brings attention to a very attractive field of work where young professionals are urgently required in order for the future. The effectiveness of retaining such talent remains to be seen and may be primarily controlled by the availability of DOE laboratory research funding in this field in the years to come.« less

Some Lessons Learned From 15 Years of Engaging Undergraduates in Space Physics Research

NASA Astrophysics Data System (ADS)

Lopez, R. E.; Bruntz, R. J.

2016-12-01

Over the past 15 years, the Lopez research group has provided about 10 undergraduates each year with opportunities to enagage in space physics research. In this presentation I will discuss and describe three critical factors to the success of the group. First of these is the use of near-peer mentoring structure that entends from undergradutes who have just joined the group up through postdocs and the lead professor. Second is the empahasis we place on science communication, which includes professional development of presentation skills and attending regional or national scientific meetings. Third is the careful selection of research projects that can be carried out successfully by undergraduates with the proper support and scaffolding. While other elements do contribute to the success of the group (such as the use of a group-wide wiki as a resource center and lab notebook), these three elements are at the core of what we do, and all senior group members (Ph.D. graduates and Postdocs) gain an understanding of these elements that they have been able to apply in their own settings once they move on.

Student Mentors' benefits in the Higher European Education: Academic Orientation

NASA Astrophysics Data System (ADS)

Medina-Rojas, S.; Gónzlez-Tirados, R. M.; Sánchez, M. E.; Paz-Ferreiro, J.; Saa-Requejo, A.; Gascó, G.; Moratiel, R.; Fabregat, J.; Antón, J. M.; Andina, D.; Tarquis, A. M.

2012-04-01

For several years the Spanish University has been experiencing changes that affect not only the educational area but also innovation and investigation in the classroom. In this sense, we carried out a first step in a senior student mentor project in order to facilitate adaptation of the new students, providing information, advice and guidance on different academic and social aspects. Here, we understand mentoring (including e-mentoring) as a relationship between a more senior student (mentor) and a few junior lesser experienced students (mentees). Mentoring is intended to develop and grow the skills, knowledge, confidence, and cultural understanding of the mentees aiming to help them succeed. Consequently, this work arises from our concern about studentś need. A test has been designed to assess studentś interest in the three fundamental aspects of mentoring: academic, social and administrative orientation. The test involved 16 questions related to these three different aspects on mentoring, evaluating each question from 1 (none) to 4 (totally). Surveys have been conducted on this topic at the Universidad Politécnica de Madrid (UPM) with students on different levels and modules of degrees in Agricultural Engineering. The same activity has been applied to the new degrees that have started last course (2010-11) in the Bologna Plan's requirements and will replace the precedents progressively. We have analyzed the answers considering sex, age, course and attitude to participate in the mentoring project. Several discussions are presented based on these results. Acknowledgements Funding provided by CEIGRAM (Research Centre for the Management of Agricultural and Environmental Risks) and Universidad Politécnica de Madrid (UPM) through Educational Innovation Project is greatly appreciated. Educational Innovation Project: "Training of senior students as mentors in different subjects of undergraduate and graduate degrees at ETSI Agrónomos"

STAR: Preparing future science and math teachers through authentic research experiences at national laboratories

NASA Astrophysics Data System (ADS)

Keller, John; Rebar, Bryan

2012-11-01

The STEM Teacher and Researcher (STAR) Program provides 9-week paid summer research experiences at national research laboratories for future science and math teachers. The program, run by the Cal Poly Center for Excellence in Science and Mathematics Education (CESaME) on behalf of the entire California State University (CSU) System, has arranged 290 research internships for 230 STEM undergraduates and credential candidates from 43 campuses over the past 6 years. The program has partnered with seven Department of Energy labs, four NASA centers, three NOAA facilities, and the National Optical Astronomy Observatory (NOAO). Primary components of the summer experience include a) conducting research with a mentor or mentor team, b) participating in weekly 2-3 hour workshops focused on translating lessons learned from summer research into classroom practice, and c) presenting a research poster or oral presentation and providing a lesson plan linked to the summer research experience. The central premise behind the STAR Program is that future science and math teachers can more effectively prepare the next generation of science, math, and engineering students if they themselves have authentic experiences as researchers.

Stimulating the clinical academics of tomorrow: a survey of research opportunities for medical students in New Zealand.

PubMed

Al-Busaidi, Ibrahim S; Wells, Cameron I

2017-09-22

Developing the clinical academic workforce of the future is a priority of international relevance. Despite a number of measures implemented to address this challenge, a small proportion of medical students engage in research. Lack of knowledge of available research opportunities, and difficulty finding projects and suitable mentors are key barriers to undergraduate medical research. To date, there is no consolidated source of information on undergraduate research training opportunities and their outcomes available to medical students in New Zealand. Based on a comprehensive review of the published and grey literature and the authors' personal experiences of research training activities as medical students, this article presents an overview of the research training opportunities available to medical students in New Zealand. Challenges facing medical student research involvement are discussed and current knowledge gaps in the literature are highlighted. The article concludes with suggested strategies to help promote research training opportunities and support students through their research experience.

Mentoring program design and implementation in new medical schools

PubMed Central

Fornari, Alice; Murray, Thomas S.; Menzin, Andrew W.; Woo, Vivian A.; Clifton, Maurice; Lombardi, Marion; Shelov, Steven

2014-01-01

Purpose Mentoring is considered a valuable component of undergraduate medical education with a variety of programs at established medical schools. This study presents how new medical schools have set up mentoring programs as they have developed their curricula. Methods Administrators from 14 US medical schools established since 2006 were surveyed regarding the structure and implementation of their mentoring programs. Results The majority of new medical schools had mentoring programs that varied in structure and implementation. Although the programs were viewed as valuable at each institution, challenges when creating and implementing mentoring programs in new medical schools included time constraints for faculty and students, and lack of financial and professional incentives for faculty. Conclusions Similar to established medical schools, there was little uniformity among mentoring programs at new medical schools, likely reflecting differences in curriculum and program goals. Outcome measures are needed to determine whether a best practice for mentoring can be established. PMID:24962112

An Approach to Integrating Health Disparities within Undergraduate Biomedical Engineering Education.

PubMed

Vazquez, Maribel; Marte, Otto; Barba, Joseph; Hubbard, Karen

2017-11-01

Health disparities are preventable differences in the incidence, prevalence and burden of disease among communities targeted by gender, geographic location, ethnicity and/or socio-economic status. While biomedical research has identified partial origin(s) of divergent burden and impact of disease, the innovation needed to eradicate health disparities in the United States requires unique engagement from biomedical engineers. Increasing awareness of the prevalence and consequences of health disparities is particularly attractive to today's undergraduates, who have undauntedly challenged paradigms believed to foster inequality. Here, the Department of Biomedical Engineering at The City College of New York (CCNY) has leveraged its historical mission of access-and-excellence to integrate the study of health disparities into undergraduate BME curricula. This article describes our novel approach in a multiyear study that: (i) Integrated health disparities modules at all levels of the required undergraduate BME curriculum; (ii) Developed opportunities to include impacts of health disparities into undergraduate BME research projects and mentored High School summer STEM training; and (iii) Established health disparities-based challenges as BME capstone design and/or independent entrepreneurship projects. Results illustrate the rising awareness of health disparities among the youngest BMEs-to-be, as well as abundant undergraduate desire to integrate health disparities within BME education and training.

Report on the American Association of Medical Physics Undergraduate Fellowship Programs

PubMed Central

Avery, Stephen; Gueye, Paul; Sandison, George A.

2013-01-01

The American Association of Physicists in Medicine (AAPM) sponsors two summer undergraduate research programs to attract top performing undergraduate students into graduate studies in medical physics: the Summer Undergraduate Fellowship Program (SUFP) and the Minority Undergraduate Summer Experience (MUSE). Undergraduate research experience (URE) is an effective tool to encourage students to pursue graduate degrees. The SUFP and MUSE are the only medical physics URE programs. From 2001 to 2012, 148 fellowships have been awarded and a total of $608,000 has been dispersed to fellows. This paper reports on the history, participation, and status of the programs. A review of surveys of past fellows is presented. Overall, the fellows and mentors are very satisfied with the program. The efficacy of the programs is assessed by four metrics: entry into a medical physics graduate program, board certification, publications, and AAPM involvement. Sixty‐five percent of past fellow respondents decided to pursue a graduate degree in medical physics as a result of their participation in the program. Seventy percent of respondents are currently involved in some educational or professional aspect of medical physics. Suggestions for future enhancements to better track and maintain contact with past fellows, expand funding sources, and potentially combine the programs are presented. PACS number: 01.10.Hx PMID:23318397

A new approach to assess student perceptions of gains from an REU program

NASA Astrophysics Data System (ADS)

Houser, C.; Cahill, A. T.; Lemmons, K.

2013-12-01

Research Experience for Undergraduate (REU) programs are designed to recruit students to science and engineering research careers by allowing the students to conduct research with faculty mentors. The success of REU programs is commonly assessed based on student perceptions of gains using a simple Likert scale. Because students tend to be positive about all aspects of their research experience, the results of the Likert scale tend to be meaningless. An alternative assessment technique, similar to Q-analysis, is used to assess the perceived outcomes of an international REU program hosted by Texas A&M University. Students were required to sort commonly identified REU outcomes into a normal distribution, from most agree to least agree, based on what they perceive as their personal gains from the program. Factor analysis reveals 3 groups of students who believe that they gained field and analytical skills (Group 1), greater competence in research and self-confidence (Group 2), and an improved understanding of the scientific method (Group 3). Student perceptions appear to depend on whether the student had previous research experience through classes and/or as a research assistant at their home institution. A comparison to a similar sort of REU outcomes by the faculty mentors suggests that there is a slight disconnect in the perceived gains by the students between the student participants and the faculty mentors.

Progress update on a 2015 USIP interdisciplinary undergraduate student microgravity experiment

NASA Astrophysics Data System (ADS)

Dove, A.; Colwell, J. E.; Brisset, J.; Kirstein, J.; Brightwell, K.; Hayden, R.; Jorges, J.; Schwartzberg, D.; Strange, J.; Yates, A.

2016-12-01

Our team was selected by the 2016 USIP program to build, fly, and analyze the results from a granular dynamics experiment that will fly in 2017 on a suborbital flight. The experiment will be designed to test technology and enable science relevant to low-gravity planetary objects, such as asteroids, comets, and small moons. Following on the success of previous NASA Flight Opportunities Program (FOP) and Undergraduate Student Instrumentation Project (USIP) projects, however, the primary driver of the project is to enable undergraduate student participation in the entire lifetime of a science and technology development project. Our mentoring team consists of faculty, postdoctoral researchers, and graduate students, who have experience with the past USIP program and similar projects, as well as with mentoring undergraduate students. The undergraduate team includes a diversity of major disciplines, including physics, mechanical/aerospace engineering, electrical engineering, business (accounting), and marketing. Each team member has specific project tasks, as outlined in the proposal, and all members will also help develop and participate in outreach events. In additional to their project roles, students will also be responsible for presentations and milestones, such as design reviews. Through these reviews and the outreach events, all team members have the chance to develop their technical and non-technical communication skills. Previous experience with the NASA USIP program demonstrated that students achieve significant growth through these projects -gaining a better understanding of the entire lifecycle of a project, and, likely more importantly, how to work with a diverse team. In this talk, we will discuss the status of the project, and present student impressions and thoughts on the project thus far.

TRIENNIAL REPRODUCTION SYMPOSIUM: American Society of Animal Science L. E. Casida Award for Excellence in Graduate Education: Thoughts on mentoring graduate students in reproductive biology.

PubMed

Smith, M F

2016-07-01

Programs in animal science are particularly well suited for graduate education because students can receive comprehensive training in the laboratory as well as with the whole animal. Furthermore, graduate students in animal science have the opportunity to understand how their research relates to a real world problem. Graduate students need to take ownership of their education by identifying training goals, choosing a mentor who will help them achieve their goals, and becoming engaged in research as soon as possible. In my own graduate program, I emphasize concepts more than techniques and I believe that graduate course work should focus on the basic areas of science that underlie reproductive biology (e.g., endocrinology, biochemistry, physiology, immunology, and statistics). Based on the increase in technology available for scientific investigation and the diversity of expertise required to address important research problems, graduate students need to learn the importance of establishing productive collaborations and begin building a scientific network. Preparation for graduate school frequently begins early with a curiosity and passion for understanding how biology works. Undergraduate courses can facilitate scientific thinking by providing opportunities in lectures and laboratories for students to transition from passive learners to thinking of themselves as animal scientists. There is a profound difference between individuals who view themselves as practitioners of a discipline and those who are simply trying to complete a course requirement. Teachers of undergraduate courses should incorporate experiential learning exercises into their lectures and laboratories to provide undergraduate students the opportunity to function as animal scientists and to embrace their scientific education. Graduate training has been the most enjoyable aspect of my career and it has been a joy to witness the achievements of students following completion of their degree!

'Ike Wai Professional Development Model for Students and Post-docs

NASA Astrophysics Data System (ADS)

Bruno, B. C.

2016-12-01

'Ike Wai: Securing Hawaii's Water Future, funded by NSF EPSCoR, is an interdisciplinary research collaboration among geophysicists, geochemists, engineers, microbiologists, computational modelers, data scientists and social scientists. Key questions include: How much water is there? How does it flow? How long will it last? Undergraduate students, graduate students and post-docs are actively involved in the research, and their professional development is a key part of the project. An underlying principle is that students assume responsibility for their own learning and professional development. Based on the model created by the NSF Center for Microbial Oceanography: Research and Education (C-MORE) (Bruno et al, 2008; Guannel et al 2014, Bottjer et al 2014), the 'Ike Wai professional development program includes (1) Leadership. Each student and post-doc creates an Individualized Professional Development plan, which includes leadership training (provided by external facilitators) and assuming leadership roles (such as developing and implementing trainings for their peers). (2) EDventures. Based on the C-MORE model, EDventures combines proposal-writing training with the incentive of seed money. Rather than providing training a priori, the EDventures model encourages students and post-docs to write a proposal based on guidelines provided. Training occurs during a two-stage review stage: proposers respond to panel reviews and resubmit their proposal within a single review cycle. C-MORE EDventures alumni self-report statistically significant confidence gains on all questions posed. Their subsequent proposal success is envious: of the 12 proposals submitted by to NSF, 50% were funded. (Wood Charlson & Bruno, 2015) (3) Layered Mentoring Network. All ´Ike Wai participants serve as both mentor and mentee. Students are matched with a non-research mentor in addition to their advisor to promote a holistic approach to career development. They will also serve as mentors to more junior students. All mentors are trained and mentoring relationships are carefully monitored to allow for sharing of best practices and early detection of issues that could adversely impact retention.

Students as Protégés: Factors That Lead to Success

ERIC Educational Resources Information Center

Bear, Stephen; Jones, Gwen

2017-01-01

This study provides insight into the factors that influence satisfaction with an Internet-based practitioner-student mentoring relationship that is part of an undergraduate business school curriculum. Practitioner mentors are especially important because they can help student protégés learn the skills needed for their professional development,…

Preservice Teacher Institute: Developing a Model Learning Community for Student Teachers

ERIC Educational Resources Information Center

Kent, Andrea M.; Simpson, Jennifer L.

2009-01-01

The Preservice Teacher Institute (PTI) is a budding learning community designed to provide mentoring and support for senior elementary education undergraduate candidates. This program is an effective paradigm for mentoring and inducting new teachers into the profession. PTI is a two-semester program. The first semester is restricted to candidates…

Academic Mentoring and Dropout Prevention for Students in Math, Science and Technology

ERIC Educational Resources Information Center

Larose, Simon; Cyrenne, Diane; Garceau, Odette; Harvey, Marylou; Guay, Frederic; Godin, Fanny; Tarabulsy, George M; Deschenes, Claire

2011-01-01

In this study, we examined the impact of a new academic mentoring program aimed at preventing student dropout in math, science and technology. The MIRES program entails bimonthly meetings between students entering college and university students completing their undergraduate degree in science and engineering. A randomized pretest-posttest control…

Faculty Development Workshops to Support Establishing and Sustaining Undergraduate Research Programs in the Earth Sciences (Invited)

NASA Astrophysics Data System (ADS)

Fox, L. K.; Guertin, L. A.

2013-12-01

The Geosciences Division of the Council of Undergraduate Research (GeoCUR, http://curgeoscience.wordpress.com/) has a long history of supporting faculty who engage in undergraduate research. The division has held faculty development workshops at national meetings of the GSA and AGU for over 15 years. These workshops serve faculty at all career stages and cover multiple aspects of the enterprise of engaging students in undergraduate research. Topics covered include: getting a job (particularly at a primarily undergraduate institution), incorporating research into classes, mentoring independent research projects and identifying sources of internal and external funding. Originally, these workshops were funded through CUR and registration income. When the administrative costs to run the workshops increased, we successfully sought funding from the NSF Course, Curriculum, and Laboratory Improvement (CCLI) program. This CCLI Type 1 special project allowed the expansion of the GSA workshops from half-day to full-day and the offering of workshops to other venues, including the annual meeting of the Association of American Geographers and sectional GSA meetings. The workshops are organized and led by GeoCUR councilors, some of whom attended workshops as graduate students or new faculty. Current and past Geoscience program officers in the NSF Division of Undergraduate Education (DUE) have presented on NSF funding opportunities. Based on participant surveys, the content of the workshops has evolved over time. Workshop content is also tailored to the particular audience; for example, AGU workshops enroll more graduate students and post-docs and thus the focus is on the job ';search' and getting started in undergraduate research. To date, this CCLI Type 1 project has supported 15 workshops and a variety of print and digital resources shared with workshop participants. This presentation will highlight the goals of this workshop proposal and also provide insights about strategies for funding professional development, impact of workshops on initiating and sustaining undergraduate research programs, and future directions of this program.

The University of Texas Science and Engineering Apprentice Program as a Model for an REU Site

NASA Astrophysics Data System (ADS)

Davis, M. B.; Blankenship, D. D.; Ellins, K. E.

2004-12-01

The University of Texas Institute for Geophysics at (UTIG) is one of five research labs in the Austin area that hosts recent high school graduates for summer research projects through the Applied Research Lab Science and Engineering Apprenticeship Program (SEAP). The SEAP is a program designed to provide summer research opportunities to recent high school undergraduates who excel in science and math. UTIG has been a large proponent of the SEAP and has typically mentored two to four students each year and a total alumni of about twenty. The program has successfully targeted groups that are typically underrepresented in sciences and engineering. Current statistics show that 25% of past SEAP students are members of an ethnic minority and 80% of SEAP students are female. Many of these students have stayed on after the summer program and continued to work part-time or return during summers to UTIG while completing their undergraduate careers. A significant portion of these students present results at professional meetings and ultimately commit to careers in science and engineering, both in industry and academia. SEAP students at UTIG work alongside scientists and graduate students as part of a team, and, through this interaction, improve their scientific knowledge and problem solving skills. Both graduate and undergraduate students involved in NSF-funded research grants mentor the SEAP students, giving them the opportunity to work on their own research problem while contributing data and interpretation to a more fundamental research problem. By uniting student research under the umbrella of Antarctic ice sheet research, students learn how their individual research projects relate to the more unifying science problem centered on ice sheet variability, and Antarctic continental evolution. They also gain an understanding of how research is carried out. At the same time, scientists and graduate students learn how to communicate their knowledge so that it is interesting and relevant to student learning. We are interested in expanding the SEAP model for student research to a scale that can support multidisciplinary REU site activities by extending research possibilities into polar research, marine studies, seismology, planetary science, and science education at UTIG in future years.

Persistence of physics and engineering students via peer mentoring, active learning, and intentional advising

NASA Astrophysics Data System (ADS)

McCavit, K.; Zellner, N. E. B.

2016-11-01

Albion College, a private, undergraduate-only, liberal arts college in Michigan, USA, has developed and implemented a low-cost peer-mentoring programme that blends personal and academic support to help students achieve academic success in the introductory courses required for the Physics Major or the Dual-Degree Program in Engineering. This enhanced mentoring programme provides much-needed assistance for undergraduate students to master introductory physics and mathematics coursework, to normalise the struggle of learning hard material, and to accept their identity as physics or engineering students (among other goals). Importantly, this programme has increased retention among entering science, technology, engineering and mathematics students at Albion College as they move through the introductory classes, as shown by a 20% increase in retention from first-semester to third-semester physics courses compared to years when this programme was not in place.

Factors Influencing Student Gains from Undergraduate Research Experiences at a Hispanic-Serving Institution

PubMed Central

Daniels, Heather; Grineski, Sara E.; Collins, Timothy W.; Morales, Danielle X.; Morera, Osvaldo; Echegoyen, Lourdes

2016-01-01

Undergraduate research experiences (UREs) confer many benefits to students, including improved self-confidence, better communication skills, and an increased likelihood of pursuing science careers. Additionally, UREs may be particularly important for racial/ethnic minority students who are underrepresented in the science workforce. We examined factors hypothetically relevant to underrepresented minority student gains from UREs at a Hispanic-serving institution, such as mentoring quality, family income, being Latino/a, and caring for dependents. Data came from a 2013 survey of University of Texas at El Paso students engaged in 10 URE programs (n = 227). Using generalized linear models (GzLMs) and adjusting for known covariates, we found that students who reported receiving higher-quality mentorship, spending more hours caring for dependents, and receiving more programmatic resources experienced significantly greater gains from their URE in all three areas we examined (i.e., thinking and working like a scientist, personal gains, and gains in skills). In two of three areas, duration of the URE was positive and significant. Being Latino/a was positive and significant only in the model predicting personal gains. Across the three models, quality of mentorship was the most important correlate of gains. This suggests that providing training to faculty mentors involved in UREs may improve student outcomes and increase program efficacy. PMID:27521234

James F. Crow and the art of teaching and mentoring.

PubMed

Hartl, Daniel L

2011-12-01

To honor James F. Crow on the occasion of his 95th birthday, GENETICS has commissioned a series of Perspectives and Reviews. For GENETICS to publish the honorifics is fitting, as from their birth Crow and GENETICS have been paired. Crow was scheduled to be born in January 1916, the same month that the first issue of GENETICS was scheduled to appear, and in the many years that Crow has made major contributions to the conceptual foundations of modern genetics, GENETICS has chronicled his and other major advances in the field. The commissioned Perspectives and Reviews summarize and celebrate Professor Crow's contributions as a research scientist, administrator, colleague, community supporter, international leader, teacher, and mentor. In science, Professor Crow was the international leader of his generation in the application of genetics to populations of organisms and in uncovering the role of genetics in health and disease. In education, he was a superb undergraduate teacher whose inspiration changed the career paths of many students. His teaching skills are legendary, his lectures urbane and witty, rigorous and clear. He was also an extraordinary mentor to numerous graduate students and postdoctoral fellows, many of whom went on to establish successful careers of their own. In public service, Professor Crow served in key administrative positions at the University of Wisconsin, participated as a member of numerous national and international committees, and served as president of both the Genetics Society of America and the American Society for Human Genetics. This Perspective examines Professor Crow as teacher and mentor through the eyes and experiences of one student who was enrolled in his genetics course as an undergraduate and who later studied with him as a graduate student.

James F. Crow and the Art of Teaching and Mentoring

PubMed Central

Hartl, Daniel L.

2011-01-01

To honor James F. Crow on the occasion of his 95th birthday, GENETICS has commissioned a series of Perspectives and Reviews. For GENETICS to publish the honorifics is fitting, as from their birth Crow and GENETICS have been paired. Crow was scheduled to be born in January 1916, the same month that the first issue of GENETICS was scheduled to appear, and in the many years that Crow has made major contributions to the conceptual foundations of modern genetics, GENETICS has chronicled his and other major advances in the field. The commissioned Perspectives and Reviews summarize and celebrate Professor Crow’s contributions as a research scientist, administrator, colleague, community supporter, international leader, teacher, and mentor. In science, Professor Crow was the international leader of his generation in the application of genetics to populations of organisms and in uncovering the role of genetics in health and disease. In education, he was a superb undergraduate teacher whose inspiration changed the career paths of many students. His teaching skills are legendary, his lectures urbane and witty, rigorous and clear. He was also an extraordinary mentor to numerous graduate students and postdoctoral fellows, many of whom went on to establish successful careers of their own. In public service, Professor Crow served in key administrative positions at the University of Wisconsin, participated as a member of numerous national and international committees, and served as president of both the Genetics Society of America and the American Society for Human Genetics. This Perspective examines Professor Crow as teacher and mentor through the eyes and experiences of one student who was enrolled in his genetics course as an undergraduate and who later studied with him as a graduate student. PMID:22174181

Exploring deliberate mentoring approaches aimed at improving the recruitment and persistence of undergraduate women in the geosciences

NASA Astrophysics Data System (ADS)

Pollack, I. B.; Adams, A. S.; Barnes, R.; Bloodhart, B.; Bowker, C.; Burt, M. A.; Clinton, S. M.; Godfrey, E.; Henderson, H.; Hernandez, P. R.; Sample McMeeking, L. B.; Sayers, J.; Fischer, E. V.

2016-12-01

In fall 2015, an interdisciplinary team with expertise in the geosciences, psychology, education, and STEM persistence began a five-year longitudinal project focused on understanding whether a multi-part mentoring program can increase the persistence of undergraduate women in the geosciences. The program focuses on mentoring 1st and 2nd year female undergraduate students from five universities in Colorado and Wyoming and four universities in North and South Carolina, and includes a weekend workshop, mentoring by professional women across geoscience fields, and both in-person and virtual peer networks. In fall 2015, we recruited 85 students from both regions into cohort 1 as well as a propensity score matched group of 255 female students that did not participate in the program. An equal or greater number of students are anticipated for cohort 2 from recruitment in fall 2016. Both cohorts will have attended weekend-long workshops (cohort 1 in October 2015, and cohort 2 in October 2016), which aimed to introduce students to various careers and lifestyles of those working in the geosciences, guide students through their strengths and interests, and address gender biases that students may face. Early analyses indicate that students who are interested in participating in the program are more likely to reject stereotypes and beliefs that the sciences are masculine, and to see science as being compatible with benefitting society. The web-platform (http://geosciencewomen.org/), designed to enable peer-mentoring and provide resources, was launched in fall 2015 and is used by both cohorts. We will present an overview of the major components of the program, early findings from focus group and survey-based feedback from participants, and discuss lessons learned during 2015 that were applied to 2016.

A Best Practices Approach to Working with Undergraduate Women in the Geosciences

NASA Astrophysics Data System (ADS)

Godfrey, E. S.; Clinton, S. M.; Adams, A. S.; Pollack, I. B.; Barnes, R.; Bloodhart, B.; Bowker, C.; Burt, M. A.; Henderson, H.; Hernandez, P. R.; Maertens, J.; Sample McMeeking, L. B.; Sayers, J.; Fischer, E. V.

2017-12-01

Many projects and programs aim to increase female participation in STEM fields, but there is little existing literature about the best practices for implementing such programs. An NSF-sponsored project, PROmoting Geoscience Research, Education & SuccesS (PROGRESS), aims to assess the effectiveness of a professional development and peer-mentoring program on undergraduate students' interest and persistence in geoscience-related fields and on self-perceptions as a scientist. We held workshops in off-campus locations in the Carolinas and the Colorado/Wyoming Front Range in 2015 (2016) for students at seven (nine) universities. Recruiting 1st and 2nd year female STEM students, however, proved challenging, even though all transportation and expenses were provided at no cost to participants. The initial acceptance rate to attend the workshop was surprisingly low (less than 30%) and was further impacted by a high number of cancellations ( 1/3 of acceptees) in the days leading up to each workshop. However, 88% of students who completed an online strength assessment beforehand attended the workshop. Thus, an activity that requires student effort in advance can be used to gauge the likelihood of participation. The PROGRESS model is proving to be effective and beneficial for undergraduate students. Post-workshop evaluations revealed that nearly all participants would recommend the workshop to others. Students found it successful in both establishing a support system in the geosciences and increasing their knowledge of geoscience opportunities. Participant surveys show that panel discussions on career paths and the mentoring experiences of working geoscientists were the most favorably-viewed workshop components. It's not enough to offer excellent programs, however; interventions are required to recruit and incentivize participants and to help students recognize the value of a mentoring program. A successful program will devote significant time toward maintaining frequent contact with participants using a variety of media (i.e., email, texting, and/or phone calls). This presentation will discuss the challenges of recruiting students and maintaining their interest and involvement in a mentoring program, as well as the potential best practices for implementing similar programs.

Best Practices in Mentoring in NOAA Scholarship Programs

NASA Astrophysics Data System (ADS)

Kaplan, M.; Sarvis, S.; Dancy, V.

2015-12-01

Through established scholarship programs, NOAA hosts 125 - 175 undergraduate students each summer to participate in internship opportunities at agency facilities. In order to host a scholar, NOAA labs and offices must designate a mentor who develops a project and oversees activities of the student throughout the summer. NOAA implements best practices in mentoring in the following ways: mentor and intern responsibilities are clearly defined in a manual; mentors are required to take an online mentor training class; mentors and scholars are matched through an online system and scholars conduct a site visit prior to beginning the internship; proposed internship projects are reviewed by scholarship program managers to assure they are sufficiently analytical and will advance the student in their future academic and career goals; and mentors are surveyed at the midpoint, allowing scholarship program managers to identify problems and intervene if possible. These practices have resulted in strong results. Students identify the mentor relationship, hands-on experience and networking with professionals as the three most important outcomes of the internship experience.

A Mentee and his Mentor Speak their Minds

NASA Astrophysics Data System (ADS)

Bank, C. G.; Papadimitrios, K. S.

2015-12-01

An academic mentoring relationship can develop organically from joint experiences as a student-teacher team involved in undergraduate research projects. The mentor rarely has been trained for this role, and the mentee may not have actively searched for a mentor at first. Once the relationship is recognized the mentor may struggle with conflicting roles, aspects of fairness to other students, recognizing what is best for the mentee (and allowing them to figure something out on their own rather than imposing a viewpoint), and questioning the value of advice because of differences in age, culture, and own career path. The mentee does not want to disappoint, can feel ashamed to ask questions (sometimes more than once), may not want to share their own opinion - let alone challenge their mentor! - and may also be afraid that they rely to much on their mentor rather than searching for answers on their own. Both parties thus face similar challenges but from different perspectives. In our opinion a good mentoring relationship is built on honesty and respect as well as mutual trust where we can point out strengths or weaknesses in one another and recognize our vulnerabilities. Our conversations have touched on many aspects of our lives (including academic, home, soft skills, and personal development). We have asked questions neither of us could answer at first but which challenged each other for further learning. Our experience has resulted in a two-way support, revealed new points of view, and allowed for development of leadership skills for both. In this presentation we will report on our journey so far, assumptions we brought along, expectations we shared, and challenges we have faced individually or together. By sharing the perceptions of both parties in our unique mentorship relationship we want to help define best mentoring practices.

Ten Years toward Equity: Preliminary Results from a Follow-Up Case Study of Academic Computing Culture

PubMed Central

Crenshaw, Tanya L.; Chambers, Erin W.; Heeren, Cinda; Metcalf, Heather E.

2017-01-01

Just over 10 years ago, we conducted a culture study of the Computer Science Department at the flagship University of Illinois at Urbana-Champaign, one of the top five computing departments in the country. The study found that while the department placed an emphasis on research, it did so in a way that, in conjunction with a lack of communication and transparency, devalued teaching and mentoring, and negatively impacted the professional development, education, and sense of belonging of the students. As one part of a multi-phase case study spanning over a decade, this manuscript presents preliminary findings from our latest work at the university. We detail early comparisons between data gathered at the Department of Computer Science at the University of Illinois at Urbana-Champaign in 2005 and our most recent pilot case study, a follow-up research project completed in 2016. Though we have not yet completed the full data collection, we find it worthwhile to reflect on the pilot case study data we have collected thus far. Our data reveals improvements in the perceptions of undergraduate teaching quality and undergraduate peer mentoring networks. However, we also found evidence of continuing feelings of isolation, incidents of bias, policy opacity, and uneven policy implementation that are areas of concern, particularly with respect to historically underrepresented groups. We discuss these preliminary follow-up findings, offer research and methodological reflections, and share next steps for applied research that aims to create positive cultural change in computing. PMID:28579969

Imagine a universe with 85% down quarks: Mentoring for inclusive excellence in nuclear science

NASA Astrophysics Data System (ADS)

Yennello, Sherry J.

2017-09-01

If nature created six down quarks for every up quark the world might be a bit more strange. The US population is made up of over 50% women. Hispanic Americans and African Americans make up over 30% of the US population. The processes by which we foster curiosity, educate our youth, encourage people into science, recruit and retain people into physics and welcome them as members of our nuclear physics community results in a much different demographic in the membership of the DNP. Enabling the development of an identity as a scientist or nuclear scientist is a crucial part of mentoring young people to successful careers in nuclear science. Research experiences for students can play a critical role in that identity development. Since 2004, over 170 students have explored nuclear science through the Research Experiences for Undergraduates program Texas A&M University Cyclotron Institute.

Overview of an REU program: A case study in gender parity, ethnic diversity, and community college students

NASA Astrophysics Data System (ADS)

Pearson, J. K.; Noriega, G.; Benthien, M. L.

2017-12-01

The Undergraduate Studies in Earthquake Information Technology (USEIT) is an REU Internship Program focused in multi-disciplinary, collaborative research offered through the Southern California Earthquake Center (SCEC); a research consortium focused on earthquake science. USEIT is an 8-week intensive undergraduate research program. The program is designed for interns to work as a collaborative engine to solve an overarching real-world earthquake problem referred to as the "Grand Challenge". The interns are organized in teams and paired with mentors that have expertise in their specific task in the Grand Challenge. The program is focused around earthquake system science, where students have the opportunity to use super computers, programming platforms, geographic information systems, and internally designed and developed visualization software. The goal of the USEIT program is to motivate undergraduates from diverse backgrounds towards careers in science and engineering through team-based research in the field of earthquake information technology. Efforts are made to recruit students with diverse backgrounds, taking into consideration gender, ethnic background, socioeconomic standing, major, college year, and institution type (2-year and 4-year colleges). USEIT has a partnership with two local community colleges to recruit underserved students. Our emphasis is to attract students that would 1) grow and develop technical skills, soft skills, and confidence from the program, and 2) provide perspective and innovation to the program. USEIT offers on-campus housing to provide a submerged learning environment, recruits diverse majors to foster interdisciplinary collaboration, maintains a full time in lab mentor for day-to-day intern needs, takes students on field trips to provide context to their research, and plans activities and field trips for team building and morale. Each year metrics are collected through exit surveys, personal statements, and intern experience statements. We highlight lessons learned, including a need for pre-program engagement to ensure student success.

Creating a Research Experience for Undergraduates that meets the Student Halfway: The REU Site on Sustainable Land and Water Resources

NASA Astrophysics Data System (ADS)

Dalbotten, D. M.; Hill, K. M.; Berthelote, A. R.; Ito, E.; Pellerin, H.; Howes, T.; Myrbo, A.

2012-12-01

There are excellent opportunities for undergraduate students to participate in research programs across the country, but often they suffer from a lack of applicants from underrepresented groups and non-traditional students. Potential applicants are out there, but too often they are lost through the recruitment and application process. We present the results here of a decade of experience in reaching the students where they are at, metaphorically and physically. Each aspect of the REU recruitment and application process will be considered in terms of barriers to participation that occur before the student even applies, in the program design and application process. We examine the application itself, the recruiting process, reaching students through their mentors and student organizations, the non-traditional student, and how programs can be constructed that allow for a wider diversity of participants. The Research Experience for Undergraduates on Sustainable Land and Water Resources strives to meet the student at least halfway through our unique program design. Our team-orientated REU places teams of students at three sites: Salish Kootenai College on the Flathead Reservation in Montana, the Fond du Lac Band of Lake Superior Chippewa Reservation in Northern Minnesota, and at the University of Minnesota, Minneapolis. Students from across the country participate in research related to land and water resources while also learning about the sustainable management practices of these communities. Every effort is made to include the non-traditional student, including parents, through the design of the program, the materials we recruit with, and our application process. Students learn about all aspects of research, from experimental design, to field and laboratory practices, to modeling and quantitative analysis. In addition, all of our mentors are encouraged to work as a team to meet the individual needs of the students in our program—academic, cultural, and social—and work for student success.

Integrating Research and Extension for the Nsf-Reu Program in Water Resources

NASA Astrophysics Data System (ADS)

Judge, J.; Migliaccio, K.; Gao, B.; Shukla, S.; Ehsani, R.; McLamore, E.

2011-12-01

Providing positive and meaningful research experiences to students in their undergraduate years is critical for motivating them to pursue advanced degrees or research careers in science and engineering. Such experiences not only offer training for the students in problem solving and critical thinking via hands-on projects, but also offer excellent mentoring and recruiting opportunities for the faculty advisors. The goal of the Research Experience for Undergraduates (REU) Program in the Agricultural and Biological Engineering Department (ABE) at the University of Florida (UF) is to provide eight undergraduate students a unique opportunity to conduct research in water resources using interdisciplinary approaches, integrating research and extension. The students are selected from diverse cultural and educational backgrounds. The eight-week REU Program utilizes the extensive infrastructure of UF - Institute of Food and Agricultural Sciences (IFAS) through the Research and Education Centers (RECs). Two students are paired to participate in their own project under the direct supervision of one of the four research mentors. Four of the eight students are located at the main campus, in Gainesville, Fl, and four remaining students are located off-campus, at the RECs, where some of the ABE faculty are located. The students achieve an enriching cohort experience through social networking, daily blogs, and weekly video conferences to share their research and other REU experiences. The students are co-located during the Orientation week and also during the 5-day Florida Waters Tour. Weekly group meetings and guest lectures are conducted via synchronously through video conferencing. The integration of research and extension is naturally achieved through the projects at the RECs, the guest lectures, Extension workshops, and visits to the Water Management Districts in Florida. In the last two years of the Program, we have received over 80 applicants, from four-year and advanced degree offering institutions and a variety of majors such as Geology, Meteorology, Environmental Sciences & Engineering, Civil Engineering, Water Resources, Agricultural Engineering, Physics, Geography, Chemical Engineering, to name a few. This model of providing integrated research and extension opportunities in hydrology where not all the REU participants are physically co-located, is unique and can be extended to other disciplines.

Lessons and Perspectives on Balancing Research and Diversity-Oriented Service

NASA Astrophysics Data System (ADS)

Emanuel, R. E.

2012-12-01

Diversity among scientists is necessary to bring together the range of personal and professional perspectives required to address many grand challenges of research in the earth and environmental sciences. Despite gains in recent decades, African Americans and American Indians remain severely under-represented at the graduate level in the environmental sciences, posing an impediment to ethnic diversity in the ranks of professional scientists. For example, the US National Science Foundation reported that in one recent year African Americans received 1,041 (3%) and American Indians received 120 (0.4%) of the 33,284 science and engineering doctoral degrees granted in the US. These fractions are smaller than African American and American Indian representation among bachelor's degree recipients, and they are smaller than representation in the general US population. Lessons from multiple disciplines (chemistry, medicine and geoscience) suggest that group learning, longitudinal mentoring and networking opportunities are critical elements in the retention of under-represented minority students and their conversion to professionals in scientific fields. With this in mind, I have worked to incorporate these elements into my own research program, which moved recently from a predominantly undergraduate institution to a research extensive university. I discuss the outcomes, successes and challenges of a recent project engaging 14 students and 5 faculty mentors from 6 institutions, including 2 HBCUs, in a yearlong study of secondary ecosystem succession in North Carolina. I frame this discussion in the general context of my own experience, as an American Indian academic, balancing diversity-related service and more traditionally recognized forms of scholarship (i.e. teaching and research) at both predominantly undergraduate and research extensive universities.

Peer Development of Undergraduate Astronomers and Physicists at the University of Wisconsin - Madison

NASA Astrophysics Data System (ADS)

Abler, Melissa; UW-Madison, Physics Club of

2014-01-01

The physics club at the University of Wisconsin - Madison is actively engaged in many peer-led activities that foster development of career-oriented skills. Peer mentoring through drop-in tutoring provides peer support to promote retention in the astronomy and physics majors, as well as developing valuable teaching and communication strategies. The physics club is also heavily involved in outreach and education through demonstrations on campus, strengthening student connections to and aiding in retention of classroom information. Public demonstrations also develop valuable communication skills which will be required as a professional. Application-oriented development of students is further enhanced by semiannual visits to research facilities in the surrounding area which provide interested students the opportunity to see non-university facilities firsthand. Close contact with faculty - a valuable resource for undergraduates - is achieved through faculty attendance at club events and presentation of faculty research to interested students. Undergraduates also have the opportunity through the physics club to speak with the weekly colloquium presenter, learning more about each presenter’s experiences with graduate school, research, and career path.

Where Are They Now? Nicole Pohida’s Passion for Nursing | Poster

Cancer.gov

After interning under three mentors at NCI at Frederick, former WHK intern Nicole Pohida is currently preparing to complete her undergraduate nursing degree at the University of Maryland. The aspiring nurse practitioner is passionate about doing the detective work necessary to solve challenging medical riddles, and she credits her mentors for helping stimulate her

Time Talk: On Small Changes That Enact Infrastructural Mentoring for Undergraduate Women in Technical Fields

ERIC Educational Resources Information Center

Sullivan, Patricia; Moore, Kristen

2013-01-01

This article brings together the communication needs and positioning of women in technical areas, and asks "how can technical communication classes contribute to the mentoring of young women engineers at a time when many of those women want to be identified as engineers instead of being spotlighted as women in engineering?" Incorporating…

The Longitudinal Elderly Person Shadowing Program: Outcomes from an Interprofessional Senior Partner Mentoring Program

ERIC Educational Resources Information Center

Basran, Jenny F. S.; Dal Bello-Haas, Vanina; Walker, Doreen; MacLeod, Peggy; Allen, Bev; D'Eon, Marcel; McKague, Meredith; Chopin, Nicola S.; Trinder, Krista

2012-01-01

The University of Saskatchewan's Longitudinal Elderly Person Shadowing (LEPS) is an interprofessional senior mentors program (SMP) where teams of undergraduate students in their first year of medicine, pharmacy, and physiotherapy; 2nd year of nutrition; 3rd year nursing; and 4th year social work partner with community-dwelling older adults.…

The Senior Mentor Program at the University of South Carolina School of Medicine: An Innovative Geriatric Longitudinal Curriculum

ERIC Educational Resources Information Center

Roberts, Ellen; Richeson, Nancy A.; Thornhill, Joshua T., IV; Corwin, Sara J.; Eleazer, G. Paul

2006-01-01

This paper describes development, implementation, and evaluation strategies of a longitudinal geriatric curriculum, the Senior Mentor Program (SMP). The rationale for exposing undergraduate medical students to healthy, community-dwelling older adults is to use the relationship and activities as vehicles for improving knowledge of aging and…

Developing Tomorrow's Talent: The Case of an Undergraduate Mentoring Programme

ERIC Educational Resources Information Center

Gannon, Judie M.; Maher, Angela

2012-01-01

Purpose: The purpose of this paper is to explore the value of an alumni and employer engagement mentoring initiative in a hospitality and tourism school within a UK university. Design/methodology/approach: The paper uses the survey method and interviews to provide qualitative and quantitative data on the participants' reactions to the initiative.…

Undergraduate research in geochemistry at a larger university: developing a community of undergraduate and graduate researchers.

NASA Astrophysics Data System (ADS)

Ryan, J. G.

2003-12-01

Faculty at state research universities can find the paired requirements of establishing research programs and developing a "pipeline" of graduate students to be the most challenging aspects of their jobs, especially with shrinking pools of graduate applicants. These problems may be more acute for laboratory-based geochemists, as few graduate candidates possess the requisite quantitative and chemical backgrounds. The need to "get my research going" at the University of South Florida led me to work primarily with undergraduates, as a) they were available and interested, b) they required no more laboratory training than M.S. students; and c) small-dollar funds were available to support them, both in-house and via NSF REU Supplements. Some senior colleagues argued that this approach would hinder my developing a graduate program as is necessary for tenure. This contention turned out to be untrue. My success in undergraduate research draws funding (in NSF REU Site and disciplinary research grants), has attracted outside MS and Ph.D. candidates, and has retained quality in-house students seeking MS degrees. Students working with me join a laboratory community in which undergraduate and graduate researchers are on equal footing in terms of access to instrumentation and other facilities. I work with all my students, irrespective of rank, as members of a cooperative research group. I encourage and expect that technical instruction I provide to any individual will be passed on to their colleagues, which helps develop a "lab culture" of best practices, and ingrains new knowledge and skills through the act of teaching them to others. Maintaining this research environment requires active recruitment of capable graduate AND undergraduate students, regular monitoring of laboratory practices, and ready availability for consultation and mentoring. One must be cognizant of the differing time commitment issues of undergraduates and graduates, and set research goals appropriately. Undergraduate research projects in which 3-4 students work together to collect necessary data can get around the class vs. research scheduling issues they face as they can share the laboratory workload through the week. Group projects can thus collect larger bodies of data, allowing students to address more substantive problems.

Inspiring undergraduates towards a career in community nursing.

PubMed

Cable, Clare; Dickson, Caroline; Morris, Gillian

2015-10-01

This article is based on the findings of a literature review commissioned by the Queen's Nursing Institute Scotland as part of its commitment to promote an evidence-based educational policy. An analysis of the literature suggests that there is potential to expand the provision of community placements beyond traditional clinical areas and these placements should be identified and overseen in collaboration with managers, mentors and higher education institutions to ensure a consistent approach and a positive learning experience. This may inspire undergraduate nurses to pursue a career in community nursing. Currently, there is little evidence to support models. High-quality evaluation research is required to ensure that new models are developed using a sound evidence base.

Stepping Stones to Research: Providing Pipelines from Middle School through PhD

NASA Astrophysics Data System (ADS)

Noel-Storr, Jacob; Baum, S. A.; RIT Insight Lab SSR Team; Carlson CenterImaging Science Faculty, Chester F.

2014-01-01

We present a decade's worth of strategies designed to promote and provide "Stepping Stones to Research" to provide a realistic pipeline of educational opportunities, with multiple gateways and exit points, for students moving towards STEM careers along the "STEM pipeline". We also illustrate how the Stepping Stones are designed to incidentally co-inside with related external opportunities through which we can also guide and support our mentees on their paths. We present programs such as middle school family science programs, high school research opportunities, high school internships, undergraduate research pathways, research experiences for undergraduates, and other opportunities. We will highlight the presentations being made at this very meeting -- from the first presentation of a high school student, to a dissertation presentation of a PhD graduate -- that have benefited from this stepping stone principle. We also reflect on the essential nature of building a "researcher-trust", even as a young student, of advocates and mentors who can support the continuation of a scientific career.

The Effective and Evolving Role of Graduate Students in the SURFO REU Program

NASA Astrophysics Data System (ADS)

Pockalny, R. A.

2005-12-01

The Summer Undergraduate Research Fellowships in Oceanography (SURFO) program is a 10-week research/educational program designed to expose 9 undergraduates per year to cutting-edge, authentic oceanographic research at the Graduate School of Oceanography/University of Rhode Island. The SURFO program primarily focuses on the more quantitative aspects of oceanography (e.g., physical oceanography, geophysical fluid dynamics and marine geophysics), which closely parallel the strengths of GSO/URI. Thus, the primary undergraduate population targeted by the program includes students from various disciplines, but with strong backgrounds in math, physics, computer science, and engineering. Over its 20-year existence, the SURFO program has continuously evolved; however, three basics goals of the program have been maintained: 1) expose students to the breadth and depth of oceanography, 2) provide students with an authentic research experience, and 3) integrate/assimilate students into the lifestyle and community of a graduate research institution. An integral component for achieving these goals has been the inclusion of graduate students as workshop leaders/instructors, research mentors, and social directors. In these roles the graduate students act as a 'big brother/sister' to transition the undergraduates into the academic and research community. The graduate students also initially behave as liaisons between the senior researcher and the SURFO participant by fielding questions and concerns the undergraduate may be too intimidated to voice. As the summer progresses, the graduate students typically evolve into a lead research advisor and begin to learn effective techniques for advising students. Responses from SURFO participants on exit questionnaires frequently comment on how their experience and research project were directly affected by the extent of graduate student participation during the summer. Anecdotal evidence also indicates the participating graduate students gain maturity in their approach to research and become more willing advisees.

The UCAR SOARS Program: Strategies for Supplementing Undergraduate Research Experience

NASA Astrophysics Data System (ADS)

Pandya, R. E.

2005-12-01

Many REU programs have a goal of recruiting students to continue in the sciences. Undergraduate research is a successful strategy for engaging talented undergraduates to think about a career in science, encouraging them to purse graduate degrees, and for preparing them to succeed in graduate school. In the Significant Opportunities for Atmospheric Research (SOARS) program, we supplement undergraduate research with several strategies as part of an undergraduate-to-graduate bridge program aimed at broadening participation in the atmospheric and related sciences. In addition to a 10-week research program, SOARS also includes a formal mentoring program, writing workshop, vigorous learning community, and extensive professional development opportunities. Our presentation will describe these research-extending strategies in SOARS in more detail, with an eye toward how such strategies might be adapted for other programs. To do this, we will draw on the results of a major, independent evaluation of the SOARS program to determine the relative importance of these strategies in the overall success of the SOARS program. In the 10 yeas since SOARS creations, 98 students have participated in the program. Of those participants, 18 are still enrolled as undergraduates, and 55 have gone on to purse graduate school in the atmospheric sciences. Overall, this represents a graduate school placement rate of 69% and an overall retention rate of 82%. Of the 27 SOARS participants who have entered the workforce, 23 are in STEM related disciplines. Finally, 3 SOARS participants have already earned their PhD, and 32 have earned Master's. These numbers are especially significant given that SOARS participants come from groups that have been historically under-represented in the atmospheric sciences.

Cultivating Leadership Development: A Comprehensive Program for Undergraduates

ERIC Educational Resources Information Center

Greenleaf, Justin P.; Klaus, Kaley; Arensdorf, Jill

2017-01-01

The Voss Advanced Undergraduate Leadership Experience (VALUE), is a student cohort program with a competitive application process. Students must have a prerequisite level of leadership education and self-select into one of three designated tracks. Students are paired with faculty and community mentors to learn about operations and collaboration in…

Feeding - Not weeding: A Strategy to Grow More Women Scientists

NASA Astrophysics Data System (ADS)

Pavone, Mary

2004-03-01

In 1990, Dartmouth College, a small, elite liberal arts college in New England, developed a co-curricular initiative to increase the numbers of undergraduate women graduating in SMET (science, math, engineering, and technology). Female attrition from the sciences was several times greater than that of male peers. Women's under-representation has been connected with early socialization, lower self-confidence, lower expectations from parents, teachers, and others; less "tinkering" experience, teaching practices in introductory college SMET courses, and a lack of critical mass. Recognizing that women leave science for varied reasons, a comprehensive and complementary set of programs evolved around the themes of early hands-on research experience, mentoring and networking, role models, access to information, and a sense of community. The cornerstone program of WISP pairs a young woman interested in science with a research faculty member for two terms of a paid, hands-on mentored introduction to research during her first or second year of college. Inquiry-based, active learning in a mentored context results in strengthened science interests, increased confidence, and expanded student vision on the possibilities of a scientific career. Developing early mentoring relationships with faculty and peers, and creating connections with a science community, are important elements for persistence in science. Now a mature and respected program, WISP supports and enhances the overall educational mission of the College by developing and nurturing a pipeline of successful female students interested in pursuing science as a career. WISP has created a positive student culture for research and scholarship that benefits all students and the institution as well.

Launching Native Health Leaders: Students as Community–Campus Ambassadors

PubMed Central

Segrest, Valerie; James, Rosalina; Madrid, Teresa; Fernandes, Roger

2010-01-01

Background Ancient teaching styles such as storytelling can help Native students to navigate the educational pipeline, and become forces for shaping health and research landscapes. Many experience isolation on campuses where these worldviews are marginalized. Objective Launching Native Health Leaders (LNHL) reduces academic isolation by creating an environment where students identify with Native values while exposing them to health and research career opportunities and interdisciplinary professional and community networks. Student experiences and the LNHL mentoring approach are described through phases of the Hero’s Journey, a universal mythic story of human struggle and transformation. Methods Undergraduates were recruited to attend health and research conferences through college and university student service programs. Tribal community representatives led group discussions focused on tribal health issues, and students explored intersections of indigenous knowledge with community-based participatory research (CBPR) and their educational journeys. Results LNHL supported more than sixty students to attend eight professional conferences since 2006 that included themes of cancer control, tribal wellness, and indigenous knowledge systems for health. Students pursuing higher degrees and community service careers participated in conference sessions, small group discussions, and reflection activities with professional and tribal community mentors. Conclusion Mainstream academic systems must include indigenous voices at all levels of leadership to shift the direction of health trends. LNHL builds capacity for community-based efforts by balancing Indigenous and academic mentoring and empowering Native students to navigate their personal journeys and create pathways to serve the needs of Indigenous peoples. Students from other marginalized groups may benefit from an LNHL mentoring approach. PMID:20364081

Teaching the basics of echocardiography in the undergraduate: Students as mentors.

PubMed

Arias Felipe, A; Doménech García, J; Sánchez Los Arcos, I; Luordo, D; García Sánchez, F J; Villanueva Martínez, J; Forero de la Sotilla, A; Villena Garrido, V; Torres Macho, J; García de Casasola Sánchez, G

To analyse the ability of medical students to incorporate the practical teaching of basic echocardiography planes using a peer mentoring design. Thirty-six medical students previously trained in obtaining echocardiography planes (mentors) taught the other 5th-year students (n=126). The teaching methodology included three stages: theory (online course), basic training (three 15h sessions of practical experience in ultrasound and at least 20 echocardiographic studies per mentor) and objective structured clinical assessment (OSCA), which scored the appropriateness of the basic ultrasound planes and the correct identification of 16 cardiac structures. The students' weighted mean score in the OSCA was 8.66±1.98 points (out of 10). Only 10 students (8.4%) scored less than 5, and 15 (12.6%) scored less than 7. Fifty students (42%) scored 10 points. The most easily identified structure was the left ventricle in the short-axis parasternal plane, with 89.9% of correct answers. The most poorly identified structure was the mitral valve in the subxiphoid plane, with 69.7% of correct answers. Peer mentoring-based teaching achieves an appropriate level of training in obtaining basic echocardiography planes. The training period is relatively short. The peer mentoring system can facilitate the implementation of teaching on basic aspects of ultrasound to a large number of undergraduate students. Copyright © 2017 Elsevier España, S.L.U. and Sociedad Española de Medicina Interna (SEMI). All rights reserved.

A course-based undergraduate research experience investigating p300 bromodomain mutations.

PubMed

Shanle, Erin K; Tsun, Ian K; Strahl, Brian D

2016-01-01

Course-based undergraduate research experiences (CUREs) provide an opportunity for students to engage in experiments with outcomes that are unknown to both the instructor and students. These experiences allow students and instructors to collaboratively bridge the research laboratory and classroom, and provide research experiences for a large number of students relative to traditional individual mentored research. Here, we describe a molecular biology CURE investigating the impact of clinically relevant mutations found in the bromodomain of the p300 transcriptional regulator on acetylated histone interaction. In the CURE, students identified missense mutations in the p300 bromodomain using the Catalogue of Somatic Mutations in Cancer (COSMIC) database and hypothesized the effects of the mutation on the acetyl-binding function of the domain. They cloned and purified the mutated bromodomain and performed peptide pulldown assays to define its potential to bind to acetylated histones. Upon completion of the course, students showed increased confidence performing molecular techniques and reported positively on doing a research project in class. In addition, results generated in the classroom were further validated in the research laboratory setting thereby providing a new model for faculty to engage in both course-based and individual undergraduate research experiences. © 2015 The International Union of Biochemistry and Molecular Biology.

Research Projects and Undergraduate Retention at the University of Arizona

NASA Astrophysics Data System (ADS)

Walker-LaFollette, Amanda; Hardegree-Ullman, K.; Towner, A. P.; McGraw, A. M.; Biddle, L. I.; Robertson, A.; Turner, J.; Smith, C.

2013-06-01

The University of Arizona’s Astronomy Club utilizes its access to the many telescopes in and around Tucson, Arizona, to allow students to fully participate in a variety of research projects. Three current projects - the exoplanet project, the radio astronomy project, and the Kepler project - all work to give undergraduates who are interested in astronomy the opportunity to explore practical astronomy outside the classroom and in a peer-supported environment. The exoplanet project strives to teach students about the research process, including observing exoplanet transits on the Steward Observatory 61” Kuiper telescope on Mt. Bigelow in Tucson, AZ, reducing the data into lightcurves with the Image Reduction and Analysis Facility (IRAF), modeling the lightcurves using the Interactive Data Language (IDL), and writing and publishing a professional paper, and does it all with no faculty involvement. The radio astronomy project is designed to provide students with an opportunity to work with a professor on a radio astronomy research project, and to learn about the research process, including observing molecules in molecular clouds using the Arizona Radio Observatory 12-meter radio telescope on Kitt Peak in Arizona. The Kepler project is a new project designed in part to facilitate graduate-undergraduate interaction in the Astronomy Department, and in part to allow students (both graduate and undergraduate) to participate in star-spot cycle research using data from the Kepler Mission. All of these research projects and structures provide students with unique access to telescopes, peer mentoring, networking, and understanding the entire process of astronomical research.

Boston University Pre-Majors Program (BU Pre-Map): Promoting Diversity through First-Year Undergraduate Research

NASA Astrophysics Data System (ADS)

West, Andrew A.

2014-06-01

One of largest points of attrition for underrepresented minorities in STEM fields is the transition from high school to college. A report from Building Engineering and Science Talent (BEST) demonstrates that underrepresented minorities begin college interested in STEM fields at rates equal to (if nor slightly above) their representation in both college and the population (25%). However, by the time they graduate, underrepresented minorities make up only 15% of STEM majors and only 9% of the STEM advanced degrees. Most of the attrition occurs during the first year of college, when large classes, a lack of mentors and challenging courses lead many students (from all backgrounds) to consider other majors.In 2011 I started the Boston University Pre-Majors Program (or BU Pre-MaP), which is modeled after the University of Washington Pre-Majors in Astronomy Program (UW Pre-MAP), a program for recruiting, mentoring and training underrepresented, first-year introductory astronomy students (and of which I was an architect). As a significant part of the Pre-MAP (or Pre-MaP) model, first-year students are engaged in a research project with a faculty or grad-student mentor and learn many of the skills needed to be successful in science.The BU Pre-MaP uses weekly seminars to introduce students to BU and the college environment, discuss ways to be successful in and out of the classroom, highlights the importance of peer mentoring and cohort building and serves as a mechanism to introduce first-year students to research skills. In teams of two, the Pre-MaP students select (with assistance) a research mentor and work with him/her on a original research project.In addition, Pre-MaP students attend several field trips including (but not limited to) viewing original science documents at the Boston Public Library (including a first edition Copernicus) and an observing run at Lowell Observatory in Arizona.

Boston University Pre-Majors Program (BU Pre-Map): Promoting Diversity through First-Year Undergraduate Research

NASA Astrophysics Data System (ADS)

West, Andrew A.

2015-01-01

One of largest points of attrition for underrepresented minorities in STEM fields is the transition from high school to college. A report from Building Engineering and Science Talent (BEST) demonstrates that underrepresented minorities begin college interested in STEM fields at rates equal to (if nor slightly above) their representation in both college and the population (25%). However, by the time they graduate, underrepresented minorities make up only 15% of STEM majors and only 9% of the STEM advanced degrees. Most of the attrition occurs during the first year of college, when large classes, a lack of mentors and challenging courses lead many students (from all backgrounds) to consider other majors.In 2012 I started the Boston University Pre-Majors Program (or BU Pre-MaP), which is modeled after the University of Washington Pre-Majors in Astronomy Program (UW Pre-MAP), a program for recruiting, mentoring and training underrepresented, first-year introductory astronomy students (and of which I was an architect). As a significant part of the Pre-MAP (or Pre-MaP) model, first-year students are engaged in a research project with a faculty or grad-student mentor and learn many of the skills needed to be successful in science.The BU Pre-MaP uses weekly seminars to introduce students to BU and the college environment, discuss ways to be successful in and out of the classroom, highlights the importance of peer mentoring and cohort building and serves as a mechanism to introduce first-year students to research skills. In teams of two, the Pre-MaP students select (with assistance) a research mentor and work with him/her on a original research project.In addition, Pre-MaP students attend several field trips including (but not limited to) viewing original science documents at the Boston Public Library (including a first edition Copernicus) and an observing run at Lowell Observatory in Arizona.

Unique aspects of Colorado State University`s REU Program in Radar and Remote Sensing

NASA Astrophysics Data System (ADS)

Hefner, E.; Chandrasekar, V.

2005-12-01

The primary mission for CSU`s REU program on radars is to create a real-life research experience for the undergraduates participating during the summer. The students are provided with a basic description of their unique research project and paired with a graduate mentor and/or faculty member. Even though the students are paired with a graduate mentor that has extensive knowledge of the assigned topic, the students are responsible for developing the project through their own efforts. Each student is also required to obtain a fundamental grasp of radar basics through independent study and a series of small lectures put on by researchers at CSU. As part of the real-life research each student is exposed to, every student has to develop and hone his or her presentation and writing skills with weekly presentations and mandatory proposal and report submittals. The program is structured such that each student has access to a vast resource of technical knowledge in the form of published documents and other researchers. This allows students that learn through different mediums to have all the necessary resources available to them. While the students are performing research in areas that have not been explored before, they are also given the opportunity to explore the differences between undergraduate and graduate school. Each student is given the ability to participate in GRE prep courses. Students are given the opportunity to assess their educations, and if they find through their research that they enjoy a specific topic or are lacking necessary background information, then they can choose to register for specific courses in the upcoming fall semester. Along with influencing course selection among the REU students, the students bring their experiences and newly developed research skills back to school with them.

Broadening participation in Research Experiences for Undergraduates (REU) programs: an evaluation of the team research model for undergraduate research experiences

NASA Astrophysics Data System (ADS)

Berthelote, A. R.; Geraghty Ward, E. M.; Dalbotten, D. M.

2014-12-01

The REU site on sustainable land and water resources has a goal of broadening participation in the geosciences by underrepresented groups and particularly Native American students. We are evaluating modifications to the traditional REU model in order to better support these students. First, we review a team research model for REU students, where students are placed on teams and work together in peer groups supported by a team of mentors. Second, the REU takes place in locations that have high populations of Native American students to remove barriers to participation for non-traditional students. Finally, the teams do research on issues related to local concerns with cultural focus. Traditional REU models (1 faculty to 1 student/on campus) have been shown to be effective in supporting student movement into graduate programs but often fail to attract a diverse group of candidates. In addition, they rely for success on the relationship between faculty and student, which can often be undermined by unrealistic expectations on the part of the student about the mentor relationship, and can be exacerbated by cultural misunderstanding, conflicting discourse, or students' personal or family issues. At this REU site, peer mentorship and support plays a large role. Students work together to select their research question, follow the project to completion and present the results. Students from both native and non-native backgrounds learn about the culture of the partner reservations and work on a project that is of immediate local concern. The REU also teaches students protocols for working on Native American lands that support good relations between reservation and University. Analysis of participant data gathered from surveys and interview over the course of our 3-year program indicates that the team approach is successful. Students noted that collaborating with other teams was rewarding and mentors reported positively about their roles in providing guidance for the student's future plans. While there are still challenges to this approach (e.g. optimal team size and structure, interpersonal conflicts among team members, geographically dispersed teams), the model has proven effective in recruiting and retaining students from culturally, geographically, and economically diverse backgrounds.

Differential Experiences of Women and Minority Engineering Students in a Cooperative Education Program

NASA Astrophysics Data System (ADS)

Fifolt, Matthew M.; Abbott, Gypsy

Although slight gains have been made in attracting women and minority students to the field of engineering, the differences are not great enough to meet current economic demands [National Academy of Sciences (2007). Rising above the gathering storm: Energizing and employing America for a brighter economic future, Washington, DC: National Academies Press]. Therefore, it has become imperative that colleges and universities increase efforts to both recruit and retain these students who express interest in the STEM fields [National Science Foundation (2006), Women, minorities, and persons with disabilities in science and engineering, NSF 4-311, Arlington, VA: NSF]. In engineering, one promising venue for students to gain professional experience as part of their undergraduate training is through cooperative education (co-op). However, there is a dearth of information in the research literature regarding how co-op programs can be structured to address the needs of diverse students. There is consensus, however, about one aspect of addressing the needs of diverse students, namely, mentoring and role models are key strategies for success. In this study, a mixed methods design was used to examine students' perceptions of mentoring in a cooperative education program in a southeastern university. Using Noe's [Noe, R. (1988). An investigation of the determinants of successful assigned mentoring relationships. Personnel Psychology, 1, 457-479] mentoring functions scales, which described psychosocial and career-related support, research findings indicated a statistically significant difference between gender and the psychosocial aspect of mentoring. Analysis of the qualitative data further confirmed differences in cooperative education experiences with respect to both gender and ethnicity.

What Is the Impact of Same-Race Alumni Mentoring on the Career Development of African American Students Attending Predominantly White Universities?

ERIC Educational Resources Information Center

Enge, Kari E.

2010-01-01

The goal of this study is to examine the impact Black alumni may have on the career development of African American undergraduate students attending predominantly White universities. The narratives presented in this study aim to highlight the mentoring process and to provide new perspectives on theories of social integration, particularly…

Peer Mentoring to Develop Psychological Literacy in First-Year and Graduating Students

ERIC Educational Resources Information Center

Burton, Lorelle J.; Chester, Andrea; Xenos, Sophie; Elgar, Karen

2013-01-01

First- and final-year undergraduate students have unique transition issues. To support both the transition of first-year students into the program, and the transition of third-year students out of the program and into the workforce or further study, a face-to-face peer mentoring program was embedded into the first-year psychology curricula at RMIT…

Reported Ideal Traits of a Mentor as Viewed by African American Students in Science, Technology, Engineering, and Mathematics

ERIC Educational Resources Information Center

Smith, Mary L.

2017-01-01

The purpose of this study was to examine undergraduate students majoring in science, technology, engineering, and math disciplines perception of traits an ideal mentor should possess, and to determine if these traits had positive results on their identification with science. With a large number of workers in STEM disciplines retiring, there is a…

Undergraduate Student Involvement in International Research - The IRES Program at MAX-lab, Sweden

NASA Astrophysics Data System (ADS)

Briscoe, William; O'Rielly, Grant; Fissum, Kevin

2014-03-01

Undergraduate students associated with The George Washington University and UMass Dartmouth have had the opportunity to participate in nuclear physics research as a part of the PIONS@MAXLAB Collaboration performing experiments at MAX-lab at Lund University in Sweden. This project has supported thirteen undergraduate students during 2009 - 2011. The student researchers are involved with all aspects of the experiments performed at the laboratory, from set-up to analysis and presentation at national conferences. These experiments investigate the dynamics responsible for the internal structure of the nucleon through the study of pion photoproduction off the nucleon and high-energy Compton scattering. Along with the US and Swedish project leaders, members of the collaboration (from four different countries) have contributed to the training and mentoring of these students. This program provides students with international research experiences that prepare them to operate successfully in a global environment and encourages them to stay in areas of science, technology, engineering and math (STEM) that are crucial for our modern, technology-dependent society. We will present the history, goals and outcomes in both physics results and student success that have come from this program. This work supported by NSF OISE/IRES award 0553467.

Retention and Mentorship of Minority Students via Undergraduate Internship Experiences

NASA Astrophysics Data System (ADS)

Cooper, P.

2004-12-01

The School of Ocean and Earth Science and Technology at the University of Hawaii is undertaking an Undergraduate Research Internship project to address the lack of full representation of women and underrepresented minorities in the geosciences. The overarching educational objective is to provide education and career development guidance and opportunities for students from underrepresented minorities. In collaboration with industry partners, we hope to prepare undergraduate students for life and careers in today's complex and dynamic technological world by encouraging them to attain high standards in the geosciences, thereby enabling them to compete successfully for positions in graduate programs. To achieve his goal, the project focuses on the following objectives: (1) Creating a high-quality integrated on-campus teaching and off-campus learning environment, and (2) providing an intensive introduction to geoscience careers through the guidance of experienced faculty and workplace mentors. The program will start small, collaborating with one or two companies over the next two years, offering paid summer internships. Opportunities for students include participation in geoscience-related research, obtaining experience in interpreting observations and providing information to end-users, working to improve technology and field methods, and developing the expertise to maintain, operate and deploy equipment. Program participants are assigned individual projects that relate to their academic majors, their career goals, and the ongoing research missions of our industry partners. In addition to their research activities, participants attend a series of seminars and tours dealing with current topics in geoscience to expose them to the wide variety of scientific and technical activities that occur in the workplace. The expected outcomes of this experience will be scientific growth and career development. Given that a very small percentage of all students go on to graduate school, strong mentoring relationships with a special advisor and/or professor who recognizes scientific potential will both aid in student retention in the field and encourage more applications to graduate school.

Peer mentored teams to support undergraduate group work in higher education

NASA Astrophysics Data System (ADS)

Cinderey, Lynn Elizabeth

This research starts with a set of practical research questions to investigate a problem which occurs in some computing undergraduate modules that use group work as part of the learning and assessment strategy. In this study final year students with experience in information systems project work and trained in team processes met with small groups of first year computing students with the aim of turning the first year project group into a team. This study seeks to explore the experience of the final year students as they take on the role of peer tutor looking at the problems they perceive within the first year teams and the skills and knowledge they use to help them. The study includes the recruitment and training of final year students (n=9) and allocation to first year teams. The final year students acted as co-researchers and team leaders in L4 Information Systems project work and recorded their thoughts and observations in a diary during the first semester of 2008/9 academic year. Diary data was supplemented by interview data from a sample of final year students (n=4). The sample was selected based on the richness of the data provided in the diaries and the number of meetings held with their teams. Rich data and thick descriptions were essential for a phenomenological examination of the experience of the final year students. A number of findings emerged. A critical approach to analysis revealed ongoing conflicts occurred across cultural divides within the first year teams that final year leaders did not articulate or appear fully aware of. This had important implications for individual team members. Other findings which relate to issues of changing levels of motivation in the teams over the ten weeks, roles adopted by the leaders, ability to systematize the project or team processes and the ability to reflect on unsuccessful strategies also had implications for peer mentoring training and support. The picture that emerged from the data suggested that lack of intercultural sensitivity and empathy within the student group reduces the value of peer mentoring interventions for some first year undergraduate team members in computing. In order to improve the experience for all students, methods to develop intercultural sensitivity within the student body are examined and a framework for training and support is proposed.

Continuing Education for Mentors and a Mentoring Program for RN-to-BSN Students.

PubMed

Cheek, Rita E; Walsh Dotson, Jo Ann; Ogilvie, LeAnn A

2016-06-01

Mentoring programs have been used effectively with graduate and undergraduate nursing students and newly licensed nurses. There are few publications about mentoring for the RN enrolled in a bachelor of science in nursing (RN-to-BSN) program. To address low graduation rates in the public RN-to-BSN nursing programs, the Montana Center to Advance Health Through Nursing designed a mentoring program to help these nurses achieve their BSN. This voluntary program was initiated at an RN-to-BSN program in a 4-year college with six RN students who were paired with a mentor. An interactive, continuing education workshop on mentoring also was developed to prepare experienced nurses for their role as a mentor. This workshop was held nine times across Montana, with a total of 156 attendees. Workshop evaluations were consistently positive. Participants identified time and personality issues as barriers to successful mentoring and recommended expansion of the workshop to a distance-learning format so more nurses could attend. J Contin Educ Nurs. 2016;47(6):272-277. Copyright 2016, SLACK Incorporated.

Bringing Students out of the Classroom and into Research Projects: An Undergraduate Team Research (UTR) Program at the University of Southern California

NASA Astrophysics Data System (ADS)

Cox, I. V.; Quirk, M.; Culbert, K. N.; Whitesides, A. S.; Sun, H.; Black, C. J.; Cao, W.; Zhang, T.; Paterson, S. R.; Memeti, V.; Anderson, J. L.

2010-12-01

In 2006, USC Earth Sciences professors Paterson and Anderson created the Undergraduate Team Research (UTR) program, a year-long, multidisciplinary, learner-centered, student research experience. This program is open to all USC undergraduate students, but has also involved a few outstanding undergraduate students from other universities. Since its inception the 47 participants have been a diverse group: 53% women, ~17% minorities, and 43% non-Earth Science majors. To date, 15 abstracts written by UTR participants have been presented at national GSA and AGU meetings and several research papers for publication are in preparation. 12 presentations have been produced at University-sponsored research symposia and culminated in a number of senior theses. The central component of this program is a field-based research experience which involves several weeks of geologic mapping in various locations around the world. During the summer expedition, participants organize themselves into 3-4 person mapping teams consisting of a mix of undergraduate geology majors, non-majors, and mentors (professors and graduate students). At the end of each day, student researchers (with limited mentoring) work together to draft a geologic map while discussing their findings, formulating hypotheses about possible geologic histories, and planning research goals and organizing mapping teams for the next day. Throughout the following academic year, the student researchers continue to work in teams to digitize their geologic map, decide which analyses need to be done, and prepare collected rock samples for various structural, geochemical, and geochronologic studies. Most student researchers agree that they learned more in a few weeks than they often did in an entire semester course. What aspects of the UTR program elicit these high-yield results, even for non-majors that can be applied to other learning environments? We speculate that three critical elements are important: (1) The most notable is the collaborative nature, both in regards to the research itself and meeting the daily demands of living in the backcountry or a foreign country while working together as a research group. Students divided tasks amongst themselves while instructing and helping each other. Students with more geology expertise were able to reinforce their own knowledge by assisting in the teaching process that led to more rapid learning for the newcomers. (2) Student researchers developed a greater feeling of ownership in the program, which led to a greater commitment to learning and to sharing a broad range of ideas about both science and non-science activities. (3) Researchers are rewarded not only through grades, but through the excitement of daily new scientific discoveries, the joint publications of their research, and recognition by their peers. It is intriguing to speculate on what would happen if classrooms and particularly labs were designed to function as collaborative, student- run exercises with the ultimate goal to not only learn a subject, but also produce research papers on the class material.

Faculty Engagement in Mentoring Undergraduate Students: How Institutional Environments Regulate and Promote Extra-Role Behavior

ERIC Educational Resources Information Center

DeAngelo, Linda; Mason, Jessica; Winters, Dana

2016-01-01

Faculty-student interaction is critical for quality undergraduate education. Faculty mentorship provides concrete benefits for students, faculty members, and institutions. However, little is known about the effect of institutional context on mentorship. Using data from interviews of 98 faculty at five different California State University…

Science teachers and docents as mentors to science and mathematics undergraduates in formal and information settings. Final report

DOE Office of Scientific and Technical Information (OSTI.GOV)

Koran, J.J. Jr.

Twenty-four undergraduate science and mathematics majors who were juniors and seniors in the colleges of Liberal Arts and Sciences and Engineering were recruited, and paid, to participate in an orientation seminar and act as teacher aides in regional schools and the Florida Museum of Natural History. Aides worked with teachers in the schools one semester and as docents in the natural history museum a second semester. Mentoring took place by the principal investigator and participating teachers and docents throughout the program. Success of the program was measured by a specially prepared attitude instrument which was administered to participants before themore » mentoring started and when it ended each semester. Written logs (field notes) were also prepared and submitted by participants at the end of each semester. Further, a tally was kept of the number of participants who decided to go into science or mathematics teaching as a result of the experience.« less

Training Undergraduate Physics Peer Tutors

NASA Astrophysics Data System (ADS)

Nossal, S. M.; Jacob, A. T.

2004-05-01

The University of Wisconsin's Physics Peer Mentor Tutor Program matches upper level undergraduate physics students in small study groups with students studying introductory algebra-based physics. We work with students who are potentially at-risk for having academic trouble with the course. They include students with a low exam score, learning disabilities, no high school physics, weak math backgrounds, and/or on academic probation. We also work with students from groups under represented in the sciences and who may be feeling isolated or marginal on campus such as minority, returning adult, and international students. The tutors provide a supportive learning environment, extra practice problems, and an overview of key concepts. In so doing, they help our students to build confidence and problem solving skills applicable to physics and other areas of their academic careers. The Physics Peer Mentor Tutor Program is modeled after a similar program for chemistry created by the University of Wisconsin's Chemistry Learning Center. Both programs are now run in collaboration. The tutors are chosen for their academic strength and excellent communication skills. Our tutors are majoring in physics, math, and secondary-level science education. The tutors receive ongoing training and supervision throughout the year. They attend weekly discipline-specific meetings to discuss strategies for teaching the content currently being discussed in the physics course. They also participate in a weekly teaching seminar with science tutors from chemistry and biochemistry to discuss teaching methods, mentoring, and general information relating to the students with whom we work. We will describe an overview of the Physics Peer Mentor Tutor Program with a focus on the teacher training program for our undergraduate tutors.

Methods for Retention of Undergraduate Students in Field-Based Research

NASA Astrophysics Data System (ADS)

Lehnen, J. N.

2017-12-01

Undergraduate students often participate in research by following the vision, creativity, and procedures established by their principal investigators. Students at the undergraduate level rarely get a chance to direct the course of their own research and have little experience creatively solving advanced problems and establishing project objectives. This lack of independence and ingenuity results in students missing out on some of the most key aspects of research. For the last two years, the Undergraduate Student Instrument Project (USIP) at the University of Houston has encouraged students to become more independent scientists by completing a research project from start to finish with minimal reliance on faculty mentors. As part of USIP, students were responsible for proposing scientific questions about the upper stratosphere, designing instruments to answer those questions, and launching their experiments into the atmosphere of Fairbanks, Alaska. Everything from formulation of experiment ideas to actual launching of the balloon borne payloads was planned by and performed by students; members of the team even established a student leadership system, handled monetary responsibilities, and coordinated with NASA representatives to complete design review requirements. This session will discuss the pros and cons of student-led research by drawing on USIP as an example, focusing specifically on how the experience impacted student engagement and retention in the program. This session will also discuss how to encourage students to disseminate their knowledge through conferences, collaborations, and educational outreach initiatives by again using USIP students as an example.

Peer Mentoring in the General Chemistry and Organic Chemistry Laboratories: The Pinacol Rearrangement--An Exercise in NMR and IR Spectroscopy for General Chemistry and Organic Chemistry Laboratories

ERIC Educational Resources Information Center

Arrington, Caleb A.; Hill, Jameica B.; Radfar, Ramin; Whisnant, David M.; Bass, Charles G.

2008-01-01

This article describes a discovery experiment for general chemistry and organic chemistry labs. Although the pinacol rearrangement has been employed in undergraduate organic laboratories before, in this application organic chemistry students act as mentors to students of general chemistry. Students work together using distillation--a new technique…

Combating isolation: Building mutual mentoring networks

NASA Astrophysics Data System (ADS)

Cox, Anne J.

2015-12-01

Women physicists can often feel isolated at work. Support from a grant through the ADVANCE program of the National Science Foundation (U.S. government funding) created mutual mentoring networks aimed at combating isolation specifically for women faculty at undergraduate-only institutions. This paper will discuss the organization of one such network, what contributed to its success, some of the outcomes, and how it might be implemented in other contexts.

NASA GISS Climate Change Research Initiative: A Multidisciplinary Vertical Team Model for Improving STEM Education by Using NASA's Unique Capabilities.

NASA Astrophysics Data System (ADS)

Pearce, M. D.

2017-12-01

CCRI is a year-long STEM education program designed to bring together teams of NASA scientists, graduate, undergraduate and high school interns and high school STEM educators to become immersed in NASA research focused on atmospheric and climate changes in the 21st century. GISS climate research combines analysis of global datasets with global models of atmospheric, land surface, and oceanic processes to study climate change on Earth and other planetary atmospheres as a useful tool in assessing our general understanding of climate change. CCRI interns conduct research, gain knowledge in assigned research discipline, develop and present scientific presentations summarizing their research experience. Specifically, CCRI interns write a scientific research paper explaining basic ideas, research protocols, abstract, results, conclusion and experimental design. Prepare and present a professional presentation of their research project at NASA GISS, prepare and present a scientific poster of their research project at local and national research symposiums along with other federal agencies. CCRI Educators lead research teams under the direction of a NASA GISS scientist, conduct research, develop research based learning units and assist NASA scientists with the mentoring of interns. Educators create an Applied Research STEM Curriculum Unit Portfolio based on their research experience integrating NASA unique resources, tools and content into a teacher developed unit plan aligned with the State and NGSS standards. STEM Educators also Integrate and implement NASA unique units and content into their STEM courses during academic year, perform community education STEM engagement events, mentor interns in writing a research paper, oral research reporting, power point design and scientific poster design for presentation to local and national audiences. The CCRI program contributes to the Federal STEM Co-STEM initiatives by providing opportunities, NASA education resources and programing that improve STEM instruction, increase and sustain youth and public engagement in STEM, enhance STEM experience of undergraduate students, better serve groups under-represented groups in STEM fields and design graduate education for tomorrow's STEM workforce.

Comparing the Impact of Course-Based and Apprentice-Based Research Experiences in a Life Science Laboratory Curriculum†

PubMed Central

Shapiro, Casey; Moberg-Parker, Jordan; Toma, Shannon; Ayon, Carlos; Zimmerman, Hilary; Roth-Johnson, Elizabeth A.; Hancock, Stephen P.; Levis-Fitzgerald, Marc; Sanders, Erin R.

2015-01-01

This four-year study describes the assessment of a bifurcated laboratory curriculum designed to provide upper-division undergraduate majors in two life science departments meaningful exposure to authentic research. The timing is critical as it provides a pathway for both directly admitted and transfer students to enter research. To fulfill their degree requirements, all majors complete one of two paths in the laboratory program. One path immerses students in scientific discovery experienced through team research projects (course-based undergraduate research experiences, or CUREs) and the other path through a mentored, independent research project (apprentice-based research experiences, or AREs). The bifurcated laboratory curriculum was structured using backwards design to help all students, irrespective of path, achieve specific learning outcomes. Over 1,000 undergraduates enrolled in the curriculum. Self-report survey results indicate that there were no significant differences in affective gains by path. Students conveyed which aspects of the curriculum were critical to their learning and development of research-oriented skills. Students’ interests in biology increased upon completion of the curriculum, inspiring a subset of CURE participants to subsequently pursue further research. A rubric-guided performance evaluation, employed to directly measure learning, revealed differences in learning gains for CURE versus ARE participants, with evidence suggesting a CURE can reduce the achievement gap between high-performing students and their peers. PMID:26751568

An Integrative and Collaborative Approach to Creating a Diverse and Computationally Competent Geoscience Workforce

NASA Astrophysics Data System (ADS)

Moore, S. L.; Kar, A.; Gomez, R.

2015-12-01

A partnership between Fort Valley State University (FVSU), the Jackson School of Geosciences at The University of Texas (UT) at Austin, and the Texas Advanced Computing Center (TACC) is engaging computational geoscience faculty and researchers with academically talented underrepresented minority (URM) students, training them to solve grand challenges . These next generation computational geoscientists are being trained to solve some of the world's most challenging geoscience grand challenges requiring data intensive large scale modeling and simulation on high performance computers . UT Austin's geoscience outreach program GeoFORCE, recently awarded the Presidential Award in Excellence in Science, Mathematics and Engineering Mentoring, contributes to the collaborative best practices in engaging researchers with URM students. Collaborative efforts over the past decade are providing data demonstrating that integrative pipeline programs with mentoring and paid internship opportunities, multi-year scholarships, computational training, and communication skills development are having an impact on URMs developing middle skills for geoscience careers. Since 1997, the Cooperative Developmental Energy Program at FVSU and its collaborating universities have graduated 87 engineers, 33 geoscientists, and eight health physicists. Recruited as early as high school, students enroll for three years at FVSU majoring in mathematics, chemistry or biology, and then transfer to UT Austin or other partner institutions to complete a second STEM degree, including geosciences. A partnership with the Integrative Computational Education and Research Traineeship (ICERT), a National Science Foundation (NSF) Research Experience for Undergraduates (REU) Site at TACC provides students with a 10-week summer research experience at UT Austin. Mentored by TACC researchers, students with no previous background in computational science learn to use some of the world's most powerful high performance computing resources to address a grand geosciences problem. Students increase their ability to understand and explain the societal impact of their research and communicate the research to multidisciplinary and lay audiences via near-peer mentoring, poster presentations, and publication opportunities.

The "art" of science communication in undergraduate research training

NASA Astrophysics Data System (ADS)

Fatemi, F. R.; Stockwell, J.; Pinheiro, V.; White, B.

2016-12-01

Student creation of well-designed and engaging visuals in science communication can enhance their deep learning while streamlining the transmission of information to their audience. However, undergraduate research training does not frequently emphasize the design aspect of science communication. We devised and implemented a new curricular component to the Lake Champlain NSF Research Experiences for Undergraduates (REU) program in Vermont. We took a holistic approach to communication training, with a targeted module in "art and science". Components to the module included: 1) an introduction to environmental themes in fine art, 2) a photography assignment in research documentation, 3) an overview of elements of design (e.g., color, typography, hierarchy), 4) a graphic design workshop using tools in Powerpoint, and 5) an introduction to scientific illustration. As part of the REU program, students were asked to document their work through photographs, and develop an infographic or scientific illustration complementary to their research. The "art and science" training culminated with a display and critique of their visual work. We report on student responses to the "art and science" training from exit interviews and survey questions. Based on our program, we identify a set of tools that mentors can use to enhance their student's ability to engage with a broad audience.

Double Standards: When an Undergraduate Dissertation Becomes the Object of Two Different Assessment Approaches

ERIC Educational Resources Information Center

Starr-Glass, David; Ali, Tanweer

2012-01-01

Within a transnational educational programme, students residing in the Czech Republic obtain baccalaureate degrees from an accredited American college. The college has a distinctive approach towards learning, co-creation of knowledge and the use of mentors. Part of the degree assessment is an undergraduate dissertation, which serves as a capstone…

Experiential Learning: Perspectives from Undergraduate Peer-Advisors Pursuing Careers in Higher Education

ERIC Educational Resources Information Center

Hutchinson, Anika L.

2017-01-01

The impact of peer-leadership programs on undergraduate students has been studied since the inception of higher education. Programs such as peer-mentoring, peer-counseling, and peer-advising are regularly used within the college environment as there are proven benefits to both student leaders and mentees. However, there is limited content on…

From Crisis Management to Academic Achievement: A University Cluster-Mentoring Model for Black Undergraduates

ERIC Educational Resources Information Center

Apprey, Maurice; Preston-Grimes, Patrice; Bassett, Kimberley C.; Lewis, Dion W.; Rideau, Ryan M.

2014-01-01

In spite of the widening racial achievement gap among U.S. college students (U.S. Census Bureau, 2011), some universities are achieving success in supporting the graduation and postcollege goals of Black undergraduates (Apprey, Bassett, Preston-Grimes, Lewis, & Wood 2014/this issue; Baker, 2006; Hrabowski, 2003; Hrabowski & Maton, 2009).…

Exploration of the impacts of distributed-site Research Experiences for Undergraduates using pre-/post- student interviews

NASA Astrophysics Data System (ADS)

Colella, H.; Hubenthal, M.; Brudzinski, M. R.

2013-12-01

The benefits for student participants of undergraduate research opportunities have been well documented. However, advancements in information and communications technologies (ICT) and cultural shifts around online education and virtual peer-to-peer interaction have lead to new models in which to structure such experiences. Currently, these ICT-enabled Research Experiences for Undergraduates (REU) programs connect geographically distributed interns in supportive e-learning communities while maintaining a traditional local mentoring arrangement. To document and explore the effects of distributed REU Sites in more depth, six interns from such a program, the Incorporated Research Institution for Seismology (IRIS) REU, were selected at random and asked to be interviewed about the REU experience. The primary targets of the interviews are to understand the mentor/mentee relationships, feeling of support and development and value of near-peer and far-peer relationships throughout their internship in a distributed REU program, and whether they receive the training necessary to gain confidence as a researcher. We also examine the various communication technologies as well as best practices and strategies that can increase intern connectedness. Pre-internship interviews were conducted in-person at the start of the centralized internship orientation week, while post-internship interviews were virtual (e.g. video chat with Skype or Google Hangout). These semi-structured interviews have full audio recordings and subsequent transcriptions. An additional, virtual follow-up interview will be conducted next spring after the interns have an opportunity to attend and present their research at a national conference (e.g., AGU). Interview material will be analyzed through a process of coding, sorting, local integration, and inclusive integration. Results will also be triangulated with pre- and post- survey data both from participants and other survey data from previous years of the IRIS program. Our presentation will highlight the key findings of these analyses. GeoCorps and RESESS will begin to employ this interview style assessment beginning this fall and next year, respectively, which will facilitate detailed comparisons between distributed and non-distributed REU approaches.

Central Dog-ma Disease Detectives: A Molecular Biology Inquiry Activity for Undergraduates

NASA Astrophysics Data System (ADS)

Quan, T. K.; Yuh, P.; Black, F.

2010-12-01

The Minority Access to Research Careers (MARC) and Minority Biomedical Research Support (MBRS) are programs at the University of California at Santa Cruz designed to support minority undergraduate students majoring in the sciences. Each summer MARC/MBRS sponsors a Summer Institute that involves week long "rotations" with different faculty mentors. In 2008, the Center for Adaptive Optics (CfAO) Professional Development Program (PDP) was responsible for overseeing one week of the Summer Institute, and designed it to be a Biomedical Short Course. As part of this short course, we designed a four-hour activity in which students collected their own data and explored relationships between the basic biomolecules DNA, RNA, and protein. The goal was to have the students use experimental data to support their explanation of the "Central Dogma" of molecular biology. Here we describe details of our activity and provide a post-teaching reflection on its success.

Undergraduate Research as a Primary Pathway to STEM Careers: Perspectives from the Council on Undergraduate Research

NASA Astrophysics Data System (ADS)

Manley, P. L.; Ambos, E. L.

2012-12-01

Undergraduate research (UR) is one of the most authentic and effective ways to promote student learning, and is a high-impact educational practice that can lead to measurable gains in student retention and graduation rates, as well as career aspirations. In recent years, UR has expanded from intensive summer one-on-one faculty-student mentored experiences to application in a variety of educational settings, including large lower division courses. The Council on Undergraduate Research (CUR), founded in 1978, is a national organization of individual (8000) and institutional members (650) within a divisional structure that includes geosciences, as well as 10 other thematic areas. CUR's main mission is to support and promote high-quality undergraduate student-faculty collaborative research and scholarship that develops learning through research. CUR fulfills this mission through extensive publication offerings, faculty and student-directed professional development events, and outreach and advocacy activities that share successful models and strategies for establishing, institutionalizing, and sustaining undergraduate research programs. Over the last decade, CUR has worked with hundreds of academic institutions, including two-year colleges, to develop practices to build undergraduate research into campus cultures and operations. As documented in CUR publications such as Characteristics of Excellence in Undergraduate Research (COEUR), strategies institutions may adopt to enhance and sustain UR often include: (1) the establishment of a central UR campus office, (2) extensive student and faculty participation in campus-based, as well as regional UR celebration events, (3) development of a consistent practice of assessment of UR's impact on student success, and, (4) establishment of clear policies for recognizing and rewarding faculty engagement in UR, particularly with respect to mentorship and publication with student scholars. Three areas of current focus within the international UR community are particularly important to considerations of broadening and strengthening the pipeline of students entering careers in geosciences and other STEM disciplines: (1) embedding UR more effectively and systematically throughout the undergraduate curriculum, (2) connecting UR experiences with student developmental arcs in content knowledge and skill integration, and, (3) growing the scholarship of study of impact of UR on student success and professional achievements. Case studies of institutions, particularly those that represent collaborations between two and four year colleges and universities, that are successfully addressing these focus areas will be presented, along with specific challenges to expanding the use of UR in lower division curricula.

Foundation degree students as work-based learners: the mentor's role.

PubMed

Wareing, Mark

Healthcare assistants and support workers are beginning to access higher education programmes to expand their roles and practice. One example has been the development of the foundation degree (FD) - a 2-year diploma level course delivered via work-based learning. These undergraduate workplace learners require the support of mentors and assessors. It is proposed that traditional notions of mentorship are insufficiently attuned to the needs of work-based learners who need to prepare more for performance, rather than for practice. This argument rests on the observation that FD students are already immersed in practice and possess a wealth of experience to link to the underpinning knowledge gained from higher education. Evidence from a small piece of interpretive research is used to inform this discussion and highlight the unique needs of work-based learners within the clinical setting.

Research Opportunities in Solid Earth Science (RESESS): Broadening Participation in Geology and Geophysics (Invited)

NASA Astrophysics Data System (ADS)

Eriksson, S. C.; Hubenthal, M.

2009-12-01

RESESS is a multi-year, paid, summer research internship program designed for students from underrepresented groups. The students receive extensive mentoring in science research and communication and become part of a community that provides ongoing support. This has been possible in the initial 5 years of the program through collaboration with Significant Opportunities in Atmospheric Research and Science (SOARS), where solid earth students have been an integral part of the SOARS cohort, benefiting from social as well as educational interactions. 11 students have taken part in RESESS for at least one year and of these, four students have graduated in geoscience and entered graduate programs in geophysics and one was recently awarded an NSF graduate fellowship. Students have presented over 20 posters at national science meetings, and one has co-authored a peer-reviewed article. 23 scientists have mentored students over the past 5 years and 17 percent of these mentors are from underrepresented groups in science; 19 other scientists and university/science consortia staff have mentored students in written and verbal presentations and supported their integration into the local communities. Mentorship over a period of years is one important hallmark of this program as students have benefited from the support of UNAVCO, IRIS, USGS, and university scientists and staff during the summer, academic year, and at professional meetings such as AGU, GSA, NABGG, and SACNAS as well as consortia and project science workshops (UNAVCO, IRIS, and EarthScope). One goal of the project has been to educate the scientific community on the benefits of mentoring undergraduate students from underrepresented groups in STEM fields. Increasingly, scientists are approaching RESESS to include this program in their implementation of broader impacts. RESESS has been funded by NSF for the next five years with plans to expand the number of students, geographic and scientific diversity, and sources of funding for a sustainable program. Collaboration with the IRIS REU program and major research programs such as POLENET began over the past three years. Synergistic activities will be increased with the inauguration of the IRIS Minority Speakers Series, partnership with the Colorado Diversity Initiative, and expanded recruitment and research opportunities from universities and colleges nation-wide.

Expanding Participation in Fluid Dynamics Research

NASA Astrophysics Data System (ADS)

Tagg, Randall

2015-11-01

Two legacies provided by great scientists are scientific discoveries and more scientists. Is there a way that these impacts can be magnified? Examples using the Taylor-Couette experiment and other fluid dynamics problems will demonstrate that indeed more people can fruitfully engage in open and even bold investigation. Participants include high school students, teachers, undergraduates, artists, business developers and interested laypersons. With imagination, good training, and a suitable lab space, a special tribute can be given to those who mentor us by scaling up the breadth of their influence.

NASA/OAI Collaborative Aerospace Internship and Fellowship Program

NASA Technical Reports Server (NTRS)

1998-01-01

The NASA/OAI Collaborative Aerospace Internship and Fellowship Program is a collaborative undertaking by the Office of Educational Programs at the NASA Lewis Research Center and the Department of Workforce Enhancement at the Ohio Aerospace Institute. This program provides 12 or 14 week internships for undergraduate and graduate students of science and engineering, and for secondary school teachers. Each item is assigned a NASA mentor who facilitates a research assignment. An important aspect of the program is that it includes students with diverse social, cultural and economic backgrounds. The purpose of this report is to document the program accomplishments for 1996.

A Hospitalist mentoring program to sustain interest in healthcare careers in under-represented minority undergraduates.

PubMed

Cervantes, Lilia; Chu, Eugene; Nogar, Carmella; Burden, Marisha; Fischer, Stacy; Valtierra, Christian; Albert, Richard K

2014-09-01

Ethnic minorities in the United States have decreased access to healthcare and disproportionately high morbidity and mortality. There has been minimal growth in the number of minority physicians despite their important role in reducing health disparities. Under-represented minority (URM) undergraduate students are 50% less likely to maintain interest in medical careers. Denver Health and the University of Colorado, Denver enrolled URM students interested in healthcare careers in a year-long, comprehensive program called the Healthcare Interest Program (HIP) that included pairing each student with a hospitalist for mentoring and job shadowing. At the end of the first year of HIP, students were surveyed, and 2 years later they were contacted for follow-up. Twenty-three students enrolled and all completed the program. Nineteen (83%) completed the survey and all "strongly agreed" that participating in HIP expanded their perceptions of what they might accomplish and increased their confidence in their ability to participate in a healthcare profession. Two-year follow-up was available for 21 students (91%). Twenty (95%) remained committed to a career in healthcare, 18 (86%) had graduated, and 6 (29%) were enrolled in postgraduate healthcare training. The interest of undergraduate minority prehealth students in healthcare careers may be maintained by participation in a multifaceted, year-long mentoring program such as HIP. © 2014 Society of Hospital Medicine.

The League of Astronomers

NASA Astrophysics Data System (ADS)

Thomas, Nancy H.; Brandel, A.; Paat, A. M.; Schmitz, D.; Sharma, R.; Trujillo, J.; Laws, C. S.

2014-01-01

The League of Astronomers is committed to engaging the University of Washington (UW) and the greater Seattle communities through outreach, research, and events. Since its re-founding two years ago, the LOA has provided a clear connection between the UW Astronomy Department, undergraduate students, and members of the public. Weekly outreach activities such as public star parties and planetarium talks in both the UW Planetarium and the Mobile Planetarium have connected enthusiastic LOA volunteers with hundreds of public observers. In addition, collaboration with organizations like the Seattle Astronomical Society and the UW Society of Physics Students has allowed the LOA to reach an even greater audience. The club also provides opportunities for undergraduate students to participate in research projects. The UW Student Radio Telescope (SRT) and the Manastash Ridge Observatory (MRO) both allow students to practice collecting their own data and turning it into a completed project. Students have presented many of these research projects at venues like the UW Undergraduate Research Symposium and meetings of the American Astronomical Society. For example, the LOA will be observing newly discovered globular clusters at the Dominion Astrophysical Observatory (DAO) in Victoria, B.C. and constructing color-magnitude diagrams. The LOA also helps engage students with the Astronomy major through a variety of events. Bimonthly seminars led by graduate students on their research and personal experiences in the field showcase the variety of options available for students in astronomy. Social events hosted by the club encourage peer mentoring and a sense of community among the Astronomy Department’s undergraduate and graduate students. As a part of one of the nation’s largest undergraduate astronomy programs, members of the League of Astronomers have a unique opportunity to connect and interact with not only the Seattle public but also the greater astronomical community.

Providing Real Research Opoportunities to Undergraduates

NASA Astrophysics Data System (ADS)

Ragozzine, Darin

2016-01-01

The current approach to undergraduate education focuses on teaching classes which provide the foundational knowledge for more applied experiences such as scientific research. Like most programs, Florida Institute of Technology (Florida Tech or FIT) strongly encourages undergraduate research, but is dominated by content-focused courses (e.g., "Physical Mechanics"). Research-like experiences are generally offered through "lab" classes, but these are almost always reproductions of past experiments: contrived, formulaic, and lacking the "heart" of real (i.e., potentially publishable) scientific research. Real research opportunities 1) provide students with realistic insight into the actual scientific process; 2) excite students far more than end-of-chapter problems; 3) provide context for the importance of learning math, physics, and astrophysics concepts; and 4) allow unique research progress for well-chosen problems. I have provided real research opportunities as an "Exoplanet Lab" component of my Introduction to Space Science (SPS1020) class at Florida Tech, generally taken by first-year majors in our Physics, Astronomy & Astrophysics, Planetary Science, and Astrobiology degree programs. These labs are a hybrid between citizen science (e.g., PlanetHunters) and simultaneously mentoring ~60 undergraduates in similar small research projects. These projects focus on problems that can be understood in the context of the course, but which benefit from "crowdsourcing". Examples include: dividing up the known planetary systems and developing a classification scheme and organizing them into populations (Fall 2013); searching through folded light curves to discover new exoplanets missed by previous pipelines (Fall 2014); and fitting n-body models to all exoplanets with known Transit Timing Variations to estimate planet masses (Fall 2015). The students love the fact that they are doing real potentially publishable research: not many undergraduates can claim to have discovered new exoplanets! Based on these experiences, I will present practical insights into successfully organizing real research opportunities. By employing some of these best practices, we can truly educate students and make scientific progress.

CAMPARE and Cal-Bridge: Two Institutional Networks Increasing Diversity in Astronomy

NASA Astrophysics Data System (ADS)

Rudolph, Alexander L.; Impey, Chris David; Smecker-Hane, Tammy A.

2016-01-01

We describe two programs, CAMPARE and Cal-Bridge, with the common mission of increasing participation of groups traditionally underrepresented in astronomy, through summer research opportunities, in the case of CAMPARE, scholarships in the case of Cal-Bridge, and significant mentoring in both programs, leading to an increase in their numbers successfully pursuing a PhD in the field.In 6 years, the CAMPARE program has sent 62 students, >85% from underrepresented groups, to conduct summer research at one of twelve major research institutions in California, Arizona, and Wyoming. The graduation rate among CAMPARE scholars is 97%, and of the 37 CAMPARE scholars who have graduated with a Bachelor's degree, almost 60% (21) have completed or are pursuing graduate education in astronomy or a related field, at institutions including UCLA, USC, UC Riverside, Stanford, Univ. of Rochester, Georgia Tech, Kent State, Indiana Univ., Univ. of Oregon, Syracuse, and the Fisk-Vanderbilt Master's-to-PhD program. The Cal-Bridge program is a CSU-UC Bridge program comprised of faculty form 5 University of California (UC), 8 California State University (CSU), and 8 California Community College (CCC) campuses in Southern California. Cal-Bridge provides much deeper mentoring and professional development experiences over the last two years of undergraduate and first year of graduate school to students from this diverse network of higher education institutions. Cal-Bridge Scholars benefit from financial support, intensive, joint mentoring by CSU and UC faculty, professional development workshops, and exposure to research opportunities at the participating UC campuses.

Toward Mentoring in Palliative Social Work: A Narrative Review of Mentoring Programs in Social Work.

PubMed

Toh, Ying Pin; Karthik, R; Teo, Chia Chia; Suppiah, Sarasvathy; Cheung, Siew Li; Krishna, Lalit

2018-03-01

Mentoring by an experienced practitioner enhances professional well-being, promotes resilience, and provides a means of addressing poor job satisfaction and high burnout rates among medical social workers. This is a crucial source of support for social workers working in fields with high risk of compassion fatigue and burnout like palliative care. Implementing such a program, however, is hindered by differences in understanding and application of mentoring practice. This narrative review of mentoring practice in social work seeks to identify key elements and common approaches within successful mentoring programs in social work that could be adapted to guide the design of new mentoring programs in medical social work. Methodology and Data Sources: A literature search of mentoring programs in social work between January 1, 2000, and December 31, 2015, using Pubmed, CINAHL, OVID, ERIC, Scopus, Cochrane and ScienceDirect databases, involving a senior experienced mentor and undergraduate and/or junior postgraduates, was carried out. A total of 1302 abstracts were retrieved, 22 full-text articles were analyzed, and 8 articles were included. Thematic analysis of the included articles revealed 7 themes pertaining to the mentoring process, outcomes and barriers, and the characteristics of mentoring relationships, mentors, mentees, and host organizations. Common themes in prevailing mentoring practices help identify key elements for the design of an effective mentoring program in medical social work. We conclude with a discussion of the implications of these findings upon clinical practice in palliative care and on sustaining such a program.

On-the-job, real-time professional development for graduate students and early career scientists at the University of Hawaii

NASA Astrophysics Data System (ADS)

Bruno, B. C.; Guannel, M.; Wood-Charlson, E.; Choy, A.; Wren, J.; Chang, C.; Alegado, R.; Leon Soon, S.; Needham, H.; Wiener, C.

2015-12-01

Here we present an overview of inter-related programs designed to promote leadership and professional development among graduate students and early career scientists. In a very short time, these young scientists have developed into an impressive cohort of leaders. Proposal Writing. The EDventures model combines proposal-writing training with the incentive of seed money. Rather than providing training a priori, the EDventures model encourages students and post-docs to write a proposal based on guidelines provided. Training occurs during a two-stage review stage: proposers respond to panel reviews and resubmit their proposal within a single review cycle. EDventures alumni self-report statistically significant confidence gains on all questions posed. Their subsequent proposal success is envious: of the 12 proposals submitted by program alumni to NSF, 50% were funded. (Wood Charlson & Bruno, in press; cmore.soest.hawaii.edu/education/edventures.htm)Mentoring. The C-MORE Scholars and SOEST Maile Mentoring Bridgeprograms give graduate students the opportunity to serve as research mentors and non-research mentors, respectively, to undergraduates. Both programs aim to develop a "majority-minority" scientist network, where Native Hawaiians and other underrepresented students receive professional development training and personal support through one-on-one mentoring relationships (Gibson and Bruno, 2012; http://cmore.soest.hawaii.edu/scholars; http://maile.soest.hawaii.edu).Outreach & Science Communication. Ocean FEST (Families Exploring Science Together), Ocean TECH (Technology Explores Career Horizons) and the Kapiolani Community College summer bridge program provide opportunities for graduate students and post-docs to design and deliver outreach activities, lead field trips, communicate their research, and organize events (Wiener et al, 2011, Bruno & Wren, 2014; http://oceanfest.soest.hawaii.edu; http://oceantech.soest.hawaii.edu)Professional Development Course. In this career-focused graduate seminar, students and post-docs explore a range of career paths, identify and build skills, prepare application materials, and develop a class project around their professional development interests (Guannel et al, 2014).

Incorporating an Interactive Statistics Workshop into an Introductory Biology Course-Based Undergraduate Research Experience (CURE) Enhances Students’ Statistical Reasoning and Quantitative Literacy Skills †

PubMed Central

Olimpo, Jeffrey T.; Pevey, Ryan S.; McCabe, Thomas M.

2018-01-01

Course-based undergraduate research experiences (CUREs) provide an avenue for student participation in authentic scientific opportunities. Within the context of such coursework, students are often expected to collect, analyze, and evaluate data obtained from their own investigations. Yet, limited research has been conducted that examines mechanisms for supporting students in these endeavors. In this article, we discuss the development and evaluation of an interactive statistics workshop that was expressly designed to provide students with an open platform for graduate teaching assistant (GTA)-mentored data processing, statistical testing, and synthesis of their own research findings. Mixed methods analyses of pre/post-intervention survey data indicated a statistically significant increase in students’ reasoning and quantitative literacy abilities in the domain, as well as enhancement of student self-reported confidence in and knowledge of the application of various statistical metrics to real-world contexts. Collectively, these data reify an important role for scaffolded instruction in statistics in preparing emergent scientists to be data-savvy researchers in a globally expansive STEM workforce. PMID:29904549

Incorporating an Interactive Statistics Workshop into an Introductory Biology Course-Based Undergraduate Research Experience (CURE) Enhances Students' Statistical Reasoning and Quantitative Literacy Skills.

PubMed

Olimpo, Jeffrey T; Pevey, Ryan S; McCabe, Thomas M

2018-01-01

Course-based undergraduate research experiences (CUREs) provide an avenue for student participation in authentic scientific opportunities. Within the context of such coursework, students are often expected to collect, analyze, and evaluate data obtained from their own investigations. Yet, limited research has been conducted that examines mechanisms for supporting students in these endeavors. In this article, we discuss the development and evaluation of an interactive statistics workshop that was expressly designed to provide students with an open platform for graduate teaching assistant (GTA)-mentored data processing, statistical testing, and synthesis of their own research findings. Mixed methods analyses of pre/post-intervention survey data indicated a statistically significant increase in students' reasoning and quantitative literacy abilities in the domain, as well as enhancement of student self-reported confidence in and knowledge of the application of various statistical metrics to real-world contexts. Collectively, these data reify an important role for scaffolded instruction in statistics in preparing emergent scientists to be data-savvy researchers in a globally expansive STEM workforce.

The Benefits of Peer-Mentoring in Undergraduate Group Research Projects at The University of Arizona

NASA Astrophysics Data System (ADS)

Hardegree-Ullman, Kevin; McGraw, A. M.; Towner, A. P.; Walker-LaFollette, A.; Robertson, A.; Smith, C.; Turner, J.; Biddle, L. I.; Thompson, R.

2013-06-01

According to the American Institute of Physics, the number of graduate students enrolled in astronomy programs in the US has been steadily increasing in the past 15 years. Research experience is one of the key factors graduate admissions committees look for when choosing students. The University of Arizona Astronomy Club is setting a new precedent in research by having students introduce other students to research. This eases the transition to research projects, and allows students to work in a comfortable setting without the sometimes-overwhelming cognitive disconnect between a professor and their students. The University of Arizona's research projects have many benefits to all students involved. It is well established that people learn a subject best when they have to teach it to others. Students leading the projects learn alongside their peers in a peer-mentoring setting. When project leaders move on in their academic career, other project members can easily take the lead. Students learn how to work in teams, practice effective communication skills, and begin the processes of conducting a full research project, which are essential skills for all budding scientists. These research projects also give students hands-on research experience that supplement and greatly expand on concepts taught in the classroom, and make them more attractive to graduate schools and REU programs.

Redefining Scientist-Educator Partnerships: Science in Service at Stanford

NASA Astrophysics Data System (ADS)

Beck, K.

2005-05-01

The Stanford Solar Observatories Group and Haas Center for Public Service have created an innovative model for scientist-educator partnerships in which science students are trained and mentored by public service education professionals to create outreach events for local communities. The program, Science in Service, is part of the EPO plan for the Solar Group's participation in NASA's Solar Dynamics Observatory mission. Based on the principles of service learning, the Science in Service Program mentors college science students in best practices for communicating science and engages these students in public service projects that center on teaching solar science. The program goals are to - Enhance and expand the learning experiences that pre-college students, from underserved and underrepresented groups in particular, have in science and technology. - Promote leadership in community service in the area of science and engineering among the next generation of scientists and engineers, today's undergraduate students. - Encourage science and engineering faculty to think creatively about their outreach requirements and to create a community of faculty committed to quality outreach programs. This talk will describe the unique advantages and challenges of a research-public service partnership, explain the structure of Stanford's Science in Service Program, and present the experiences of the undergraduates and the outreach communities that have been involved in the program.

Lewis' Educational and Research Collaborative Internship Program

NASA Technical Reports Server (NTRS)

Heyward, Ann; Gott, Susan (Technical Monitor)

2004-01-01

The Lewis Educational and Research Collaborative Internship Program (LERCIP) is a collaborative undertaking by the Office of Educational Programs at NASA Glenn Research Center at Lewis Field (formerly NASA Lewis Research Center) and the Ohio Aerospace Institute. This program provides 10-week internships in addition to summer and winter extensions if funding is available and/or is requested by mentor (no less than 1 week no more than 4 weeks) for undergraduate/graduate students and secondary school teachers. Students who meet the travel reimbursement criteria receive up to $500 for travel expenses. Approximately 178 interns are selected to participate in this program each year and begin arriving the fourth week in May. The internships provide students with introductory professional experiences to complement their academic programs. The interns are given assignments on research and development projects under the personal guidance of NASA professional staff members. Each intern is assigned a NASA mentor who facilitates a research assignment. In addition to the research assignment, the summer program includes a strong educational component that enhances the professional stature of the participants. The educational activities include a research symposium and a variety of workshops, and lectures. An important aspect of the program is that it includes students with diverse social, cultural and economic backgrounds. The purpose of this report is to document the program accomplishments for 2004.

Mentoring, Women in Engineering and Related Sciences, and MentorNet

NASA Astrophysics Data System (ADS)

Dockter, J.; Muller, C.

2003-12-01

Mentoring is a frequently employed strategy for retention of women in engineering and science. The power of mentoring is sometimes poorly understood, and mentoring is not always effectively practiced, however. At its strongest, mentoring is understood as a powerful learning process, which assures the intergenerational transfer of knowledge and "know-how" on an ongoing basis throughout one's life. Mentoring helps make explicit the tacit knowledge of a discipline and its professional culture, which is especially important for underrepresented groups. MentorNet (www.MentorNet.net), the E-Mentoring Network for Women in Engineering and Science, is a nonprofit organization focused on furthering women's progress in scientific and technical fields through the use of a dynamic, technology-supported mentoring program. Since 1998, nearly 10,000 undergraduate and graduate women studying engineering and related sciences at more than 100 colleges and universities across the U.S., and in several other nations, have been matched in structured, one-on-one, email-based mentoring relationships with male and female scientific and technical professionals working in industry and government. This poster will describe the MentorNet program, and provide findings of annual program evaluations related to outcomes for participants with particular focus on women in the planetary and earth sciences. We also address the development of the partnership of approximately 100 organizations currently involved in MentorNet and the value each gains from its affiliation. MentorNet is an ongoing effort which supports the interests of all organizations and individuals working to advance women in engineering and related sciences.

The python project: a unique model for extending research opportunities to undergraduate students.

PubMed

Harvey, Pamela A; Wall, Christopher; Luckey, Stephen W; Langer, Stephen; Leinwand, Leslie A

2014-01-01

Undergraduate science education curricula are traditionally composed of didactic instruction with a small number of laboratory courses that provide introductory training in research techniques. Research on learning methodologies suggests this model is relatively ineffective, whereas participation in independent research projects promotes enhanced knowledge acquisition and improves retention of students in science. However, availability of faculty mentors and limited departmental budgets prevent the majority of students from participating in research. A need therefore exists for this important component in undergraduate education in both small and large university settings. A course was designed to provide students with the opportunity to engage in a research project in a classroom setting. Importantly, the course collaborates with a sponsor's laboratory, producing a symbiotic relationship between the classroom and the laboratory and an evolving course curriculum. Students conduct a novel gene expression study, with their collective data being relevant to the ongoing research project in the sponsor's lab. The success of this course was assessed based on the quality of the data produced by the students, student perception data, student learning gains, and on whether the course promoted interest in and preparation for careers in science. In this paper, we describe the strategies and outcomes of this course, which represents a model for efficiently providing research opportunities to undergraduates. © 2014 P. A. Harvey et al. This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

Forensics as a Gateway: Promoting Undergraduate Interest in Science, and Graduate Student Professional Development through a First-Year Seminar Course

ERIC Educational Resources Information Center

Charkoudian, Louise K.; Heymann, Jared J.; Adler, Marc J.; Haas, Kathryn L.; Mies, Kassy A.; Bonk, James F.

2008-01-01

A group of five graduate students and a faculty mentor used the cultural popularity of forensics to develop a first-year undergraduate seminar. This course fulfilled two main objectives: First, the graduate student instructors developed professionally through a two-year process of creating, instructing, and revising a course. Second, a variety of…

The Power of Freedom: Setting up a Multimodal Exhibition with Undergraduate Students to Foster Their Learning and Help Them to Achieve

ERIC Educational Resources Information Center

Abegglen, Sandra; Burns, Tom; Sinfield, Sandra

2016-01-01

The present paper explores the opportunities created by an emancipatory approach to learning and teaching when combined with embedded peer mentoring. First year undergraduate students--most from non-traditional backgrounds--were set the task to explore learning spaces at their university and to present their findings in creative ways in a…

Strategies for Broadening Participation in the Geosciences: Lessons Learned From the UCAR-SOARSr Program

NASA Astrophysics Data System (ADS)

Pandya, R. E.

2004-12-01

Broadening participation in the geosciences will advance our research, enhance our education and training, and improve our ability to meet societal needs. By attracting more diverse students, we will be better postioned to provide all our students the increasingly necessary and relevant experience of working in diverse teams. Because some traditionally underrepresented groups, particularly Latinos & Hispanics, are growing much faster than the population as a whole, broader participation will enlarge the pool of talented individuals contributing to the next generation of research. Finally the geosciences will be more effective and credible when the diversity of our nation is reflected in our workforce, especially as civic discourse includes more and more complex decisions about society's interactions with the Earth and its resources. The Significant Opportunities in Atmospheric Research and Science (SOARS) seeks to broaden participation in geosciences by helping undergraduate students successfully transition to graduate programs in the atmospheric and related sciences. SOARS combines multiple research experiences, multifaceted mentoring, an encouraging community, and financial support to help students enter and succeed in graduate school. A central feature of the SOARS program is a ten-week summer immersion program in which protégés (SOARS participants) conduct scientific research at the National Center for Atmospheric Research (NCAR) or at laboratories of SOARS sponsors. During this summer research experience, SOARS protégés are supported by up to four mentors: a science research mentor, a writing mentor, a community mentor, and a peer mentor. SOARS protégés collaborate with their mentors to perform original research, prepare scientific papers, and present their research at a colloquium. SOARS also provides extensive leadership and communication training; support for conference presentations and for graduate school; and a strong scholarly community that develops from the critical mass of protégés living and working together in Boulder. Over the program's nine years, 90 protégés have participated in the SOARS. Twenty-nine protégés have completed their masters' degrees and one has successfully defended her PhD. Thirty-three SOARS protégés are enrolled in graduate programs in an atmospheric or related science. Twenty-three are enrolled in master's programs, and 10 are pursuing doctoral degrees. Sixteen protégés are currently in the professional scientific or engineering workforce. SOARS protégés have delivered over 100 posters or presentations at national or regional conferences. SOARS received the Presidential Award for Excellence in Science, Mathematics, and Engineering Mentoring in 2001 SOARS strategies can be offered for consideration by institutions seeking to develop their own programs to broaden participation. We will also report on an independent review of SOARS that will highlight other programmatic features that contribute to program success. Preliminary results suggest several key practices that include: UCARs institutional commitment to inclusiveness; personal attention to the needs of each student; opportunities for student peer interaction; and continuous program monitoring, evaluation, and adjustment.

The NASA Space Life Sciences Training Program: Accomplishments Since 2013

NASA Technical Reports Server (NTRS)

Rask, Jon; Gibbs, Kristina; Ray, Hami; Bridges, Desireemoi; Bailey, Brad; Smith, Jeff; Sato, Kevin; Taylor, Elizabeth

2017-01-01

The NASA Space Life Sciences Training Program (SLSTP) provides undergraduate students entering their junior or senior years with professional experience in space life science disciplines. This challenging ten-week summer program is held at NASA Ames Research Center. The primary goal of the program is to train the next generation of scientists and engineers, enabling NASA to meet future research and development challenges in the space life sciences. Students work closely with NASA scientists and engineers on cutting-edge research and technology development. In addition to conducting hands-on research and presenting their findings, SLSTP students attend technical lectures given by experts on a wide range of topics, tour NASA research facilities, participate in leadership and team building exercises, and complete a group project. For this presentation, we will highlight program processes, accomplishments, goals, and feedback from alumni and mentors since 2013. To date, 49 students from 41 different academic institutions, 9 staffers, and 21 mentors have participated in the program. The SLSTP is funded by Space Biology, which is part of the Space Life and Physical Sciences Research and Application division of NASA's Human Exploration and Operations Mission Directorate. The SLSTP is managed by the Space Biology Project within the Science Directorate at Ames Research Center.

Networking for Successful Diversity Recruiting: Creating a Highly Diverse Research Experiences for Undergraduates Program by Networking with Mentors, Faculty, and Students.

NASA Astrophysics Data System (ADS)

Dalbotten, D. M.; Berthelote, A.; Watts, N. B.

2017-12-01

Successfully recruiting for diversity begins as you plan your program and make sure that all elements of the program support diverse participation. The REU on Sustainable Land and Water Resources continues to be one of the most diverse NSF-funded Research Experience for Undergraduate Programs in the geosciences. Every aspect of the program, from recruiting, the application process, selecting participants, and the methods developed to support participant success have been scrutinized and tailored towards broadening participation. While the focus of the research has been on collaboration with Native American reservations to create community-based participatory research projects and improving access for Native American students, the PIs strive for ethnic and cultural diversity of the participants. Emphasis on networking and building relationships with minority-serving institutions has led to increasing numbers of underrepresented students applying to the REU. In 2017, a full 30% of our applications were from underrepresented groups. The authors will discuss methods for improved diversity recruiting, as well as ways to make every aspect of your program support diversity in the geosciences.

Lens on Climate Change (LOCC) - Engaging Secondary Students in Climate Science through Videography

NASA Astrophysics Data System (ADS)

Gold, A. U.; Oonk, D. J.; Smith, L. K.; Sullivan, S. B.; Boykoff, M.; Osnes, B.

2014-12-01

The impact of climate change is often discussed using examples from Polar Regions such as decreasing polar bear populations but significant changes are happening to local climates around the world. Climate change is often perceived as happening elsewhere, evoking a sense that others have to take action to mitigate climate change. Learning about climate change is very tangible for students when it addresses impacts they can observe close to their home. The Lens on Climate Change (LOCC) program engaged Colorado middle and high school students in producing short videos about climate change topics in Colorado, specifically ones that are impacting students' lives and their local community. Participating schools were located in rural, suburban and urban Colorado many of which have diverse student populations and high Free and Reduced Lunch rates. Project staff recruited university graduate and undergraduate student to mentor the students in their research and video production. With the help of these mentors, ten student groups selected and researched climate topics, interviewed science experts from local research institutes and produced short videos. The program aimed at engaging students in self-motivated researching and learning about a climate topic. Furthermore, it served as a way to spark students' interest in a career in science by matching them with college students for the program duration and bringing them to the University of Colorado campus for a final screening event, for many of students their first visit to a college campus. The LOCC middle and high school student groups were in addition paired with undergraduate student groups enrolled in a college course that explores climate change through artistic compositions. The undergraduate students were tasked to develop a companion video based only on a brief prompt from the secondary students. Both student videos were screened back-to-back at a final screening. The LOCC project's goal was to connect secondary students, who would otherwise not have the opportunity, with college life and the scientific community. Our evaluation results showed that the process of video production was a powerful tool for the students to explore and learn about climate change topics. Students and teachers appreciated the unique approach to learning.

Experience of a faculty development workshop in mentoring at an Indian medical college.

PubMed

Varma, Jagdish R; Prabhakaran, Anusha; Singh, Suman; Singh, Praveen; Ganjiwale, Jaishree; Pandya, Himanshu

2016-01-01

Our medical college is running a mentoring programme for undergraduate medical students since 2009. The academic leadership of the college identified the need to change the focus of the programme from mere problem- solving to professional and personal development of mentees. A core group of faculty designed and implemented a workshop on mentoring for 28 mentors. The workshop included reflections on the participants' previous experiences about mentoring, discussion on perceptions of mentees about the existing mentoring programme, self-analysis of mentoring skills, overview of the Surrendering, Accepting, Gifting and Extending (SAGE) model and demonstration of effective mentoring skills using role plays and a film. We collected written anonymous feedback from participants at the end of the workshop to elicit their responses regarding various aspects of the programme, change in their views about mentoring and suggestions for future workshops. A majority of the participants (17, 60.7%) said that role plays and reflection on role plays were the most valuable part of workshop as they provided clarity on the concepts about mentoring. The most frequently identified take-home messages were: building trust with the mentee (7, 25%), balance in life and approach towards the mentee (6, 21.4%), and understanding that mentoring is a process geared towards personal and professional development of the mentee (6, 21.4%). The participants' reaction to the workshop was positive. The responses of participants suggested that the workshop was successful in changing their views regarding the purpose of the mentoring programme.

Having mentors and campus social networks moderates the impact of worries and video gaming on depressive symptoms: a moderated mediation analysis.

PubMed

Lee, Jong-Sun; Jeong, Bumseok

2014-05-05

Easy access to the internet has spawned a wealth of research to investigate the effects of its use on depression. However, one limitation of many previous studies is that they disregard the interactive mechanisms of risk and protective factors. The aim of the present study was to investigate a resilience model in the relationship between worry, daily internet video game playing, daily sleep duration, mentors, social networks and depression, using a moderated mediation analysis. 6068 Korean undergraduate and graduate students participated in this study. The participants completed a web-based mental health screening questionnaire including the Beck Depression Inventory (BDI) and information about number of worries, number of mentors, number of campus social networks, daily sleep duration, daily amount of internet video game playing and daily amount of internet searching on computer or smartphone. A moderated mediation analysis was carried out using the PROCESS macro which allowed the inclusion of mediators and moderator in the same model. The results showed that the daily amount of internet video game playing and daily sleep duration partially mediated the association between the number of worries and the severity of depression. In addition, the mediating effect of the daily amount of internet video game playing was moderated by both the number of mentors and the number of campus social networks. The current findings indicate that the negative impact of worry on depression through internet video game playing can be buffered when students seek to have a number of mentors and campus social networks. Interventions should therefore target individuals who have higher number of worries but seek only a few mentors or campus social networks. Social support via campus mentorship and social networks ameliorate the severity of depression in university students.

The University of Connecticut Biomedical Engineering Mentoring Program for high school students.

PubMed

Enderle, John D; Liebler, Christopher M; Haapala, Stephenic A; Hart, James L; Thonakkaraparayil, Naomi T; Romonosky, Laura L; Rodriguez, Francisco; Trumbower, Randy D

2004-01-01

For the past four years, the Biomedical Engineering Program at the University of Connecticut has offered a summer mentoring program for high school students interested in biomedical engineering. To offer this program, we have partnered with the UConn Mentor Connection Program, the School of Engineering 2000 Program and the College of Liberal Arts and Sciences Summer Laboratory Apprentice Program. We typically have approximately 20-25 high school students learning about biomedical engineering each summer. The mentoring aspect of the program exists at many different levels, with the graduate students mentoring the undergraduate students, and these students mentoring the high school students. The program starts with a three-hour lecture on biomedical engineering to properly orient the students. An in-depth paper on an area in biomedical engineering is a required component, as well as a PowerPoint presentation on their research. All of the students build a device to record an EKG on a computer using LabView, including signal processing to remove noise. The students learn some rudimentary concepts on electrocardiography and the physiology and anatomy of the heart. The students also learn basic electronics and breadboarding circuits, PSpice, the building of a printed circuit board, PIC microcontroller, the operation of Multimeters (including the oscilloscope), soldering, assembly of the EKG device and writing LabView code to run their device on a PC. The students keep their EKG device, LabView program and a fully illustrated booklet on EKG to bring home with them, and hopefully bring back to their high school to share their experiences with other students and teachers. The students also work on several other projects during this summer experience as well as visit Hartford Hospital to learn about Clinical Engineering.

Promoting Undergraduate Research at Grand Valley State University

NASA Astrophysics Data System (ADS)

Riemersma, P.; Mekik, F. A.

2003-12-01

Grand Valley State University (GVSU) is a relatively young, rapidly growing, predominately undergraduate institution of about 20,000 students located in western Michigan in which undergraduate research plays a vital role in the education of our students. Student research is supported and actively promoted by 1) creating university funding opportunities and taking advantage of small outside funding sources 2) building a tradition of undergraduate research 3) incorporating small research activities into classes and 4) educating students explicitly in how to prepare a professional poster, give a professional talk and write a journal article. As the saying goes, if you have money, the students will come. At GVSU most students recognize the value of a research experience but need income to pay for college expenses. The internally funded Student Summer Scholars program at GVSU provides student salary and faculty stipend for a summer research project (\\6000 per grant). The geology department has also been successful at obtaining grants from the NASA Michigan Space Grant Consortium (\\5,000 plus a 100% GVSU match). We have been successful in using these easier to obtain smaller grants to fund undergraduate projects. In some cases small grants actually allow us to pursue "risky" or otherwise difficult to fund projects. Undergraduate research "counts" at GVSU and once a tradition and critical mass of undergraduate research has been established, it can become self-sustaining. To recognize the achievements of undergraduate research at GVSU, there is an annual Student Scholarship Day in which the students (580 university wide) present the results of their research. Also, by persuading students in our introductory classes (for extra credit) to attend Student Scholarship Day, the students, early in their college career, can see what fellow students can accomplish and student presenters can revel in their role of researcher and educator. Such an event helps to build a tradition of undergraduate research. Students are more likely to tackle larger research projects if they have gained confidence and experience by successfully completing smaller research projects. Many upper level geology courses require that students complete a research project. Research projects can range from investigating the grain size variability of river sediment in sedimentology to analyzing a Superfund site in hydrogeology. The geology department is also committed to instructing all our majors in how to organize and communicate the results of their research. Students are required to complete a course in geology Information Literacy and a geology seminar course. The information literacy course instructs the students in how to search for articles, introduces common graphing and computing software and demonstrates how to design and produce a research poster. In seminar, the entire geology faculty participate and instruct and mentor the students as they prepare a research paper and professional talk. In conclusion, we have created a supportive undergraduate research atmosphere at GVSU by acquiring funding for their research, by training our students in how to conduct and present their research, and, perhaps most importantly, by celebrating their accomplishments.

Watershed Watch: Using undergraduate student-driven inquiry-based research projects as a means of engaging undeclared students in the biogeosciences

NASA Astrophysics Data System (ADS)

Rock, B. N.; Hale, S.; Graham, K.; Hayden, L. B.

2009-12-01

Watershed Watch (NSF 0525433) engages early undergraduate students from two-year and four-year colleges in student-driven full inquiry-based instruction in the biogeosciences. Program goals for Watershed Watch are to test if inquiry-rich student-driven projects sufficiently engage undeclared students (or noncommittal STEM majors) to declare a STEM major (or remain with their STEM major). The program is a partnership between two four-year campuses - the University of New Hampshire (UNH), and Elizabeth City State University (ECSU, in North Carolina); and two two-year campuses - Great Bay Community College (GBCC, in New Hampshire) and the College of the Albemarle (COA, in North Carolina). The program focuses on two watersheds: the Merrimack Ricer Watershed in New Hampshire and Massachusetts, and the Pasquotank River Watershed in Virginia and North Carolina. Both the terrestrial and aquatic components of both watersheds are evaluated using the student-driven projects. A significant component of this program is an intensive two-week Summer Research Institute (SRI), in which undeclared freshmen and sophomores investigate various aspects of their local watershed. Two Summer Research Institutes have been held on the UNH campus (2006 and 2008) and two on the ECSU campus (2007 and 2009). Students develop their own research questions and study design, collect and analyze data, and produce a scientific oral or poster presentation on the last day of the SRI. The course objectives, curriculum and schedule are presented as a model for dissemination for other institutions and programs seeking to develop inquiry-rich programs or courses designed to attract students into biogeoscience disciplines. Data from self-reported student feedback indicate the most important factors explaining high-levels of student motivation and research excellence in the program are: 1) working with committed, energetic, and enthusiastic faculty mentors, and 2) faculty mentors demonstrating high degrees of teamwork and coordination. The past four Summer Research Institutes have engaged over 100 entry-level undergraduate students in the process of learning science by doing it, and approximately 50% of those participating have declared majors in a wide range of science fields. A total of eight Watershed Watch students have presented findings from their SRI research projects at AGU meetings in 2007, 2008, and 2009. This presentation will highlight the lessons learned over the past four years in the Watershed Watch program.

The Solar Convection Spectrum

NASA Technical Reports Server (NTRS)

Bachmann, Kurt T.

2000-01-01

I helped to complete a research project with NASA scientists Dr. David Hathaway (my mentor), Rick Bogart, and John Beck from the SOHO/SOI collaboration. Our published paper in 'Solar Physics' was titled 'The Solar Convection Spectrum' (April 2000). Two of my undergraduate students were named on the paper--Gavrav Khutri and Josh Petitto. Gavrav also wrote a short paper for the National Conference of Undergraduate Research Proceedings in 1998 using a preliminary result. Our main result was that we show no evidence of a scale of convection named 'mesogranulation'. Instead, we see only direct evidence for the well-known scales of convection known as graduation and supergranulation. We are also completing work on vertical versus horizontal flow fluxes at the solar surface. I continue to work on phase relationships of solar activity indicators, but I have not yet written a paper with my students on this topic. Along with my research results, I have developed and augmented undergraduate courses at Birmingham-Southern College by myself and with other faculty. We have included new labs and observations, speakers from NASA and elsewhere, new subject material related to NASA and space science. I have done a great deal of work in outreach, mostly as President and other offices in the Birmingham Astronomical Society. My work includes speaking, attracting speakers, giving workshops, and governing.

A phenomenological study into the impact of the sign-off mentor in the acute hospital setting.

PubMed

Hutchison, Trudy; Cochrane, Jill

2014-06-01

Mentoring provides an essential quality assurance mechanism within undergraduate support and assessment of nurses. Recent changes to the standards for supporting pre-registration learners in clinical practice have provided additional structure to this process. Existing evidence suggests there are numerous challenges such as balancing clinical and mentoring priorities and making appropriate decisions; evidence about the sign-off mentor role in particular is currently lacking. This study explores the impact of the sign-off mentor role within the acute setting utilising a phenomenological approach. A purposive sample of 6 sign-off mentors contributed to data collection via the use of semi-structured interviews. Data were collected using a digital tape recorder and transcribed verbatim. Analysis of findings allowed for the development of 3 main themes which are accountability, time and commitment. A key finding of this study is the change in focus for sign-off mentors to one of assessment of clinical competence and professional regulation as opposed to mentors who have concentrated on the teaching and pastoral aspects of this role. However, sustainability requires further investment in this new role from a managerial and educational perspective. Recommendations include further attempts to embed protected time into organisational processes, the consideration of limiting students to sign-off mentors when mentoring a final placement student and negotiating maximum number of exposures to this role within a set time frame. © 2013.

A Model For Creating Innovators Through Freshman Research

NASA Astrophysics Data System (ADS)

Winget, Donald E.; Montgomery, M. H.

2013-01-01

Students come to the College of Natural Sciences because they want to do research, not because they want to sit in the classroom. The University of Texas Freshman Research Initiative (FRI) is designed to leverage this desire. It motivates, stimulates and educates the next generation of scientists by getting them directly involved in cutting edge research in their first year of college. They initially contribute to a group project designed for them to build the skills needed for research. Within the first year they develop a more independent project. After four years with the Astronomy Stream of the FRI, our first group has graduated. Three of the six have produced honors theses and a fourth is working on one this fall. Three were Dean's Honored Graduates. Of these two were female and one male. Two are in graduate programs and one is admitted to medical school. One won the George Mitchell Award as the outstanding undergraduate student at the University of Texas. Subsequent classes hold similar promise. The success at recruiting and retaining these students, with minorities and women well represented, is traceable to at least three key factors. First, the research introduces them to the transformative and addictive joy of knowing something about the universe that no one, past or present, has ever known before. Second it gives them a context for the knowledge they gain in the classroom. Third it allows them to develop a network of peers and mentors. The mentors are layered, with upper division undergraduates serving as the first line, then graduate students, post docs and faculty. They always have access to help in their research and in their class work. The end result is that they perform significantly better in the classroom than their peers that are not involved in an FRI stream. We will discuss future plans for the FRI: how we plan to expand to larger groups and how the concept can be exported to other universities.

A synergistic effort among geoscience, physics, computer science and mathematics at Hunter College of CUNY as a Catalyst for educating Earth scientists.

NASA Astrophysics Data System (ADS)

Salmun, H.; Buonaiuto, F. S.

2016-12-01

The Catalyst Scholarship Program at Hunter College of The City University of New York (CUNY) was established with a four-year award from the National Science Foundation (NSF) to fund scholarships for academically talented but financially disadvantaged students majoring in four disciplines of science, technology, engineering and mathematics (STEM). Led by Earth scientists the Program awarded scholarships to students in their junior or senior years majoring in computer science, geosciences, mathematics and physics to create two cohorts of students that spent a total of four semesters in an interdisciplinary community. The program included mentoring of undergraduate students by faculty and graduate students (peer-mentoring), a sequence of three semesters of a one-credit seminar course and opportunities to engage in research activities, research seminars and other enriching academic experiences. Faculty and peer-mentoring were integrated into all parts of the scholarship activities. The one-credit seminar course, although designed to expose scholars to the diversity STEM disciplines and to highlight research options and careers in these disciplines, was thematically focused on geoscience, specifically on ocean and atmospheric science. The program resulted in increased retention rates relative to institutional averages. In this presentation we will discuss the process of establishing the program, from the original plans to its implementation, as well as the impact of this multidisciplinary approach to geoscience education at our institution and beyond. An overview of accomplishments, lessons learned and potential for best practices will be presented.

The ERAU Undergraduate Meteorology Program, Students' Learning, and Measures of Success

NASA Astrophysics Data System (ADS)

Ivanova, D.

2008-12-01

The goal of this paper is to introduce the relationship, teaching techniques, research experience, and critical thinking interactions between Embry-Riddle Aeronautical University(ERAU) McNair mentors and their meteorology students to ensure the students' continued academic success and path to graduate school. The primary goal of the McNair Scholars Program is to provide experiences that prepare selected undergraduate students for doctoral study. The overriding goal of the McNair programs is to increase the number of underrepresented students who will obtain doctoral degrees and go on to teach and do research in institutions of higher learning. The underrepresented students are often those with limited resources, however encouraging critical thinking and undergraduate research experience is an effective tool for engaging them in applied meteorology. How do we help underrepresented meteorology students become aware of their strong and weak sides, help their learning, improve their learning strategies, and guide them toward a successful graduate school path? What skills are particularly important in developing a solid undergraduate expertise in meteorology? How can these skills be taught effectively? What are the obstacles the McNair scholars have to overcome? Some students are under prepared in math or have math phobias, others are learning English as they are learning the complex vocabulary of meteorology, or arrive in the classroom with communication skills that are not fully developed. We discuss our experiences as part of the ERAU McNair Scholars Program and Department of meteorology faculty body.

A Strategy for Developing Future Academic Leaders for South Africa in a Resource-Constrained Environment

PubMed Central

Lalloo, Umesh G.; Bobat, Raziya A.; Pillay, Sandy; Wassenaar, Douglas

2014-01-01

A key challenge in addressing the shortage of health care workers in resource-constrained environments is ensuring that there is optimal academic capacity for their training. South Africa’s University of KwaZulu-Natal has placed academic and research capacity building at the heart of its program with the Medical Education Partnership Initiative (MEPI) in a program called ENhancing Training, REsearch Capacity, and Expertise (ENTREE). The program is premised on the basis that research capacity development will lead to an increase in teachers who will be essential to improving the quality and quantity of health care workers needed to meet South Africa’s health challenges. This is being achieved through four components of the program: (1) infusion of the undergraduate program with research modules; (2) attraction of academically talented students in the middle of their undergraduate program into a parallel track that has research capacity as its major thrust; (3) attraction of qualified health care personnel into a supported PhD program; and (4) providing strong research ethics training and mentorship. A significant proportion of the program is being executed in rural training sites, to increase the probability that trainees will return to the sites as mentors. PMID:25072580

The C-MORE Scholars Program: Engaging minority students in STEM through undergraduate research

NASA Astrophysics Data System (ADS)

Gibson, B. A.; Bruno, B. C.

2010-12-01

There have been several studies that show how undergraduate research experiences (REU) have a positive impact on a student’s academic studies and career path, including being a positive influence toward improving the student's lab skills and ability to work independently. Moreover, minority students appear to relate to science, technology, engineering, and mathematics (STEM) concepts better when they are linked with (1) a service learning component, and (2) STEM courses that include a cultural and social aspect that engages the student in a way that does not distract from the student’s technical learning. It is also known that a “place-based” approach that incorporates traditional (indigenous) knowledge can help engage underrepresented minority groups in STEM disciplines and increase science literacy. Based on the methods and best practices used by other minority serving programs and described in the literature, the Center for Microbial Oceanography: Research and Education (C-MORE) has successfully developed an academic-year REU to engage and train the next generation of scientists. The C-MORE Scholars Program provides undergraduate students majoring in an ocean or earth science-related field, especially underrepresented students such as Native Hawaiians and Pacific Islanders, the opportunity to participate in unique and cutting edge hands-on research experiences. The program appoints awardees at one of three levels based on previous research and academic experience, and students can progress through the various tiers as their skills and STEM content knowledge develop. All awardees receive guidance on a research project from a mentor who is a scientist at the university and/or industry. A key component of the program is the inclusion of professional development activities to help the student continue towards post graduation education or prepare for career opportunities after they receive their undergraduate STEM degree.

Developing Strong Geoscience Programs and Departments

NASA Astrophysics Data System (ADS)

MacDonald, R.; Manduca, C. A.

2002-12-01

Strong geoscience programs are essential for preparing future geoscientists and developing a broad public understanding of our science. Faculty working as a department team can create stronger programs than individual faculty working alone. Workshops sponsored by Project Kaleidoscope (www.pkal.org) on departmental planning in the geosciences have emphasized the importance of designing programs in the context of both departmental and student goals. Well-articulated goals form a foundation for designing curriculum, courses, and other departmental activities. Course/skill matrices have emerged as particularly valuable tools for analyzing how individual courses combine in a curriculum to meet learning goals. Integrated programs where students have opportunities to learn and use skills in multiple contexts have been developed at several institutions. Departments are leveraging synergies between courses to more effectively reach departmental goals and capitalize on opportunities in the larger campus environment. A full departmental program extends beyond courses and curriculum. Studies in physics (National Task Force on Undergraduate Physics, Hilborne, 2002) indicate the importance of activities such as recruiting able students, mentoring students, providing courses appropriate for pre-service K-12 teachers, assisting with professional development for a diversity of careers, providing opportunities for undergraduates to participate in research, and making connections with the local industries and businesses that employ graduates. PKAL workshop participants have articulated a wide variety of approaches to undergraduate research opportunities within and outside of class based on their departmental goals, faculty goals, and resources. Similarly, departments have a wide variety of strategies for developing productive synergies with campus-wide programs including those emphasizing writing skills, quantitative skills, and environmental studies. Mentoring and advising activities are becoming more central to many departmental programs and can effectively draw on campus, alumni, and industry resources. Attention to the role and reputation of the department on campus is important in creating a supportive climate for departmental activities. The challenges of creating a strong program can be most effectively met using a team approach that capitalizes on the strengths of every department member.

Using Data-Collection Sensors to Improve Reasoning About Experiment Design and Hypothesis Testing: An Undergraduate Course for Underrepresented Minorities Pursuing Careers Astrophysics Research

NASA Astrophysics Data System (ADS)

Robbins, Dennis M.; Ford, K. E. Saavik

2015-01-01

Strategies to improve the retention of underrepresented students in STEM fields include directly targeted programs and specialized courses. The NSF-supported 'AstroCom NYC' program, a collaboration of the City University of New York, American Museum of Natural History (AMNH), and Columbia University is one example of such a program with the explicit goal of increasing the participation of underrepresented minorities in astronomy and astrophysics through pedagogical mentoring and research experiences for undergraduate students. In addition, 'AstroCom NYC' provides students with a semester-long specialized course emphasizing scientific reasoning and mathematical modeling. The course curriculum uses computers and interfaced digital probeware (sensors) in a laboratory environment that encourages collaborative and active learning.We share course materials on preparing students to reason about control of variable experiment design and hypothesis testing and provide course data on student understanding of scientific reasoning, mathematical modeling and views about science.

Undergraduate Social Support and Career Networking as a Result of Membership in the University of Arizona Astronomy Club

NASA Astrophysics Data System (ADS)

Towner, Allison P.; Hardegree-Ullman, K.; Walker-LaFollette, A.; McGraw, A. M.; Robertson, A.; Smith, C.; Biddle, L. I.; Turner, J.

2013-06-01

Membership in formal or informal groups of students with similar interests provides many benefits to undergraduate astronomy majors at the University of Arizona. First and foremost, members benefit from peer social and academic support within the major. These benefits are both tangible and intangible: students form friendships with like-minded peers, which can sustain them through difficult periods of study, but these social networks are the basis of later professional networks as well. Students in the U of A Astronomy Club have received both informal and formal research positions at other institutions as a direct result of the support, peer mentoring, and connections of club members, and at least six also hold paid, non-research positions within the department as a result of their connection to the club. Finally, most Astronomy Club members take their first steps into professional astronomy, such as attendance at a AAS Meeting, as a result of Club membership and the encouragement of older club members.

Students Leading Students: An Observational Study of a University Remedial Educational Program

ERIC Educational Resources Information Center

Chavez, Michael Juan; Ysais, Michelle

2017-01-01

This article provides a unique insider perspective developing leadership at the undergraduate level. A case study approach was used to examine the efficacy of a peer mentoring program for remedial students.

Basic Abdominal Point-of-Care Ultrasound Training in the Undergraduate: Students as Mentors.

PubMed

Garcia-Casasola, Gonzalo; Sánchez, Francisco Javier García; Luordo, Davide; Zapata, Deborah Forrester; Frías, María Carnevali; Garrido, Victoria Villena; Martínez, Javier Villanueva; de la Sotilla, Alberto Forero; Rojo, José Manuel Casas; Macho, Juan Torres

2016-11-01

To analyze the ability of medical students to be integrated in the teaching of basic abdominal ultrasound using a peer-mentoring design. Thirty medical students previously trained in basic abdominal ultrasound (mentors) had to teach all fourth-year students (n = 136) from a single academic year the same training they had received. There were 3 stages to the ultrasound teaching: theoretical (online course); basic training (3 practical sessions in which students were guaranteed to have had a minimum of 15 hours of practical experience with ultrasound and performed at least 20 basic abdominal ultrasound studies); and evaluation (objective structured clinical examination in which students had to obtain the basic abdominal views and to identify 17 structures). The mean grade ± SD obtained was 8.71 ± 1.53 of a possible 10 points. Only 2 students (1.56%) obtained a grade lower than 5, and 14 students (10.86%) obtained a grade lower than 7. A total of 33 students (25.5%) achieved the maximum grade. The structures most easily identified were the liver, the right kidney, and the urinary bladder, with 97.7% of correct answers. Students obtained the poorest results when trying to identify the left and right cardiac cavities (subxiphoid view), with only 53.5% and 55.8% of correct answers, respectively. Teaching based on peer mentoring achieved an adequate level of training in basic abdominal ultrasound. The students acquired these skills in a relatively short training period. These results suggest that peer mentoring can facilitate the large-scale implementation of ultrasound teaching in undergraduate students. © 2016 by the American Institute of Ultrasound in Medicine.

The California-Arizona Minority Partnership for Astronomy Research and Education (CAMPARE): A New Model for Promoting Minority Participation in Astronomy Research and Education

NASA Astrophysics Data System (ADS)

Rudolph, Alexander L.; Impey, C. D.; Bieging, J. H.; Phillips, C. B.; Tieu, J.; Prather, E. E.; Povich, M. S.

2013-01-01

The California-Arizona Minority Partnership for Astronomy Research and Education (CAMPARE) program represents a new and innovative kind of research program for undergraduates: one that can effectively carry out the goal of recruiting qualified minority and female students to participate in Astronomy and Planetary Science research opportunities, while mentoring them in a way to maximize the chance that these students will persist in obtaining their undergraduate degrees in STEM fields, and potentially go on to obtain their PhDs or pursue careers in those fields. The members of CAMPARE comprise a network of comprehensive universities and community colleges in Southern California and Arizona (most of which are minority serving institutions), and four major research institutions (University of Arizona Steward Observatory, the SETI Institute, and JPL/Caltech). Most undergraduate research programs focus on a single research institution. By having multiple institutions, we significantly broaden the opportunities for students, both in terms of breadth of research topics and geographical location. In its first three years, the CAMPARE program has had 20 undergraduates from two CSU campuses, both Hispanic Serving Institutions, take part in research and educational activities at four research institutions, the University of Arizona Steward Observatory, the SETI Institute, and JPL/Caltech. Of the 20 participants, 9 are women and 11 are men, a much more even split than is typical in Astronomy research programs; 10 are Hispanic, 2 are African American, and 1 is part Native American, including 2 female Hispanic and 2 female African-American participants, an exceptionally high participation rate (65%) for students from underrepresented minority groups. Of the five participants who have graduated since the program began, two are in graduate programs in Physics or Astronomy, two are pursuing a K-12 teaching credential, and one has enlisted in the Nuclear Propulsion Officer Candidate (NUPOC) program of the U.S. Navy.

Biosphere 2, a nexus of partner networks that improve student experiences and outcomes

NASA Astrophysics Data System (ADS)

Dontsova, K.; Bonine, K. E.; Batchelor, R. L.; Brinkworth, C.; Keller, J. M.; Hogan, D.; Treloar, D.

2017-12-01

University of Arizona (UA) Biosphere 2 co-convenes several internship opportunities for undergraduate students, including 1) NSF-funded Research Experiences for Undergraduates (REU) Site: "Biosphere 2 Earth Systems Research for Environmental Solutions", 2) NSF-funded INCLUDES program "Collaborative Research: Integrating Indigenous and Western Knowledge to Transform Learning and Discovery in the Geosciences" executed in collaboration with the University Corporation for Atmospheric Research (UCAR), and 3) STEM Teacher and Researcher (STAR) Fellows Program in partnership with California Polytechnic State University - San Luis Obispo. In addition, the B2 REU Site partners with several UA organizations linking research to stakeholders, such as UA Cooperative Extension, Institute of the Environment, and the Water Resources Research Center, and with the UA Graduate College's Undergraduate Research Opportunities Consortium (UROC), which connects a diverse portfolio of summer research programs across the UA campus. Connections among these programs and organizations allow us to improve student experiences and outcomes by leveraging organizational, mentor, and peer diversity and expertise. Each partnership brings unique benefits for the students - from access to teaching experience and perspectives that STAR Fellows provide, to a multitude of professional development programs made possible by pooled resources of UROC participants, to access to networks and knowledge from our outreach partners, to opportunities for continued multi-year learning and support with INCLUDES and UCAR. Coming together allows all partners to better apply outside resources, expertise, and knowledge to bring more value to the students and to help students enrich themselves as well as partner organizations and program participants.

Enhancing Astronomy Major Learning Through Group Research Projects

NASA Astrophysics Data System (ADS)

McGraw, Allison M.; Hardegree-Ullman, K.; Turner, J.; Shirley, Y. L.; Walker-Lafollette, A.; Scott, A.; Guvenen, B.; Raphael, B.; Sanford, B.; Smart, B.; Nguyen, C.; Jones, C.; Smith, C.; Cates, I.; Romine, J.; Cook, K.; Pearson, K.; Biddle, L.; Small, L.; Donnels, M.; Nieberding, M.; Kwon, M.; Thompson, R.; De La Rosa, R.; Hofmann, R.; Tombleson, R.; Smith, T.; Towner, A. P.; Wallace, S.

2013-01-01

The University of Arizona Astronomy Club has been using group research projects to enhance the learning experience of undergraduates in astronomy and related fields. Students work on two projects that employ a peer-mentoring system so they can learn crucial skills and concepts necessary in research environments. Students work on a transiting exoplanet project using the 1.55-meter Kuiper Telescope on Mt. Bigelow in Southern Arizona to collect near-UV and optical wavelength data. The goal of the project is to refine planetary parameters and to attempt to detect exoplanet magnetic fields by searching for near-UV light curve asymmetries. The other project is a survey that utilizes the 12-meter Arizona Radio Observatory on Kitt Peak to search for the spectroscopic signature of infall in nearby starless cores. These are unique projects because students are involved throughout the entire research process, including writing proposals for telescope time, observing at the telescopes, data reduction and analysis, writing papers for publication in journals, and presenting research at scientific conferences. Exoplanet project members are able to receive independent study credit for participating in the research, which helps keep the project on track. Both projects allow students to work on professional research and prepare for several astronomy courses early in their academic career. They also encourage teamwork and mentor-style peer teaching, and can help students identify their own research projects as they expand their knowledge.

Outcomes of Global Public Health Training Program for US Minority Students: A Case Report.

PubMed

Krawczyk, Noa; Claudio, Luz

The numbers and success of minority students in science and the health fields remain relatively low. This study presents the outcomes of a research training program as an illustrative case study. The Short-Term Training Program for Minority Students (STPMS) recruits underrepresented minority undergraduate and graduate students for immersion in research training. A total of 69 students participated in the STPMS between 1995 and 2012, and 59 of these completed our survey to determine the perceived impact of the program on the students' motivations and professional development. Results indicated that motivations to participate in the STPMS were commonly related to long-term professional development, such as obtaining mentoring and guidance in career decision making, rather than gaining specific research skills or for economic reasons. Students reported that participation in short-term research training had the most significant effect on improving their attitudes toward biomedical research and promoted positive attitudes toward future careers in health research. A total of 85% of the program's alumni have since completed or are currently working toward a degree in higher education, and 79% are currently working in science research and health care fields. Overall, the short-term training program improved students' attitudes toward research and health science careers. Mentoring and career guidance were important in promoting academic development in students. Copyright © 2017. Published by Elsevier Inc.

A Grounded Theory Study of the Mentoring Process Involved With Undergraduate Athletic Training Students

PubMed Central

Pitney, William A; Ehlers, Greg G

2004-01-01

Objective: To gain insight regarding the mentoring processes involving students enrolled in athletic training education programs and to create a mentoring model. Design and Setting: We conducted a grounded theory study with students and mentors currently affiliated with 1 of 2 of the athletic training education programs accredited by the Commission on Accreditation of Allied Health Education Programs. Participants: Sixteen interviews were conducted, 13 with athletic training students and 3 with individuals identified as mentors. The students ranged in age from 20 to 24 years, with an average of 21.6 years. The mentors ranged from 24 to 38 years of age, with an average of 33.3 years. Participants were purposefully selected based on theoretic sampling and availability. Data Analysis: The transcribed interviews were analyzed using open-, axial-, and selective-coding procedures. Member checks, peer debriefings, and triangulation were used to ensure trustworthiness. Results: Students who acknowledged having a mentor overwhelmingly identified their clinical instructor in this role. The open-coding procedures produced 3 categories: (1) mentoring prerequisites, (2) interpersonal foundations, and (3) educational dimensions. Mentoring prerequisites included accessibility, approachability, and protégé initiative. Interpersonal foundations involved the mentor and protégé having congruent values, trust, and a personal relationship. The educational dimensions category involved the mentor facilitating knowledge and skill development, encouraging professional perspectives, and individualizing learning. Although a student-certified athletic trainer relationship can be grounded in either interpersonal or educational aspects, the data support the occurrence of an authentic mentoring relationship when the dimensions coalesced. Conclusions: Potential mentors must not only be accessible but also approachable by a prospective protégé. Mentoring takes initiative on behalf of a student and the mentor. A mentoring relationship is complex and involves the coalescence of both interpersonal and educational aspects of an affiliation. As a professional-socialization tactic, mentoring offers students a way to anticipate the future professional role in a very personal and meaningful way. PMID:15592607

An entrepreneurial training model to enhance undergraduate training in biomedical research.

PubMed

Kamangar, Farin; Silver, Gillian; Hohmann, Christine; Hughes-Darden, Cleo; Turner-Musa, Jocelyn; Haines, Robert Trent; Jackson, Avis; Aguila, Nelson; Sheikhattari, Payam

2017-01-01

Undergraduate students who are interested in biomedical research typically work on a faculty member's research project, conduct one distinct task (e.g., running gels), and, step by step, enhance their skills. This "apprenticeship" model has been helpful in training many distinguished scientists over the years, but it has several potential drawbacks. For example, the students have limited autonomy, and may not understand the big picture, which may result in students giving up on their goals for a research career. Also, the model is costly and may greatly depend on a single mentor. The NIH Building Infrastructure Leading to Diversity (BUILD) Initiative has been established to fund innovative undergraduate research training programs and support institutional and faculty development of the recipient university. The training model at Morgan State University (MSU), namely " A S tudent- C entered En trepreneurship D evelopment training model" (ASCEND), is one of the 10 NIH BUILD-funded programs, and offers a novel, experimental "entrepreneurial" training approach. In the ASCEND training model, the students take the lead. They own the research, understand the big picture, and experience the entire scope of the research process, which we hypothesize will lead to a greater sense of self-efficacy and research competency, as well as an enhanced sense of science identity. They are also immersed in environments with substantial peer support, where they can exchange research ideas and share experiences. This is important for underrepresented minority students who might have fewer role models and less peer support in conducting research. In this article, we describe the MSU ASCEND entrepreneurial training model's components, rationale, and history, and how it may enhance undergraduate training in biomedical research that may be of benefit to other institutions. We also discuss evaluation methods, possible sustainability solutions, and programmatic challenges that can affect all types of science training interventions.

The University of Minnesota Morris (UMM) STEP Program: an initiative to encourage the participation of Native Americans in the sciences

NASA Astrophysics Data System (ADS)

Cotter, J. F.

2009-12-01

The goal of the UMM STEP program is to increase the number of graduates in STEM fields through innovative curricular, recruiting and mentoring strategies. A unique focus of the UMM STEP program is increasing the number of Native American science majors. The STEP program fosters a summer research environment where peer interaction and mentoring creates a web of support. To do so we will establish a supportive and fulfilling pipeline that: 1) Identifies Native American students and involves them in research while they are high school; 2) Mentors and prepares participants for university academics the summer before their freshman year; 3) Provides a complete tuition waiver, mentoring and a support network throughout their undergraduate career; and 4) Involves participants in an active and dynamic summer undergraduate research environment where under-represented individuals are in the majority. The third and fourth components of this pipeline are in very good shape. The Morris campus was originally established as an Indian School in 1887. When the federal government deeded the Indian school campus to the University of Minnesota a stipulation was that Native American students attend the college for free. At present, 196 Native Americans are enrolled at UMM (50 are STEM majors). The UMM STEP research experience provides the unique opportunity to interact with a scientific community that both breaks down a number of traditional barriers and aids in the maturation of these students as scientists. In Summer 2008, 4 students were involved in summer research and in 2009 seven Native American students participated. Early efforts of the UMM STEP program are encouraging. UMM Admissions staff used the UMM STEP program to recruit Native American students and the P.I. phoned “uncommitted admits”, visited reservations and hosted reservation student visits. The result was an increase in freshman Native American Science majors from 7 in Fall 2007, 15 in fall 2008 and 20 in fall 2009. Overall, Native American Science majors increased from 33 (2007) to 39 (2008) and now 50 (2009). One UMM STEP participant from summer of 2008 graduated and is now in the University of Wisconsin Pharmacy Program. The biggest challenge to date for the UMM STEP program is making contact with rising junior and senior High School students. As a result, the envisioned UMM STEP “pipeline” remains without a solid foundation. Strategies employed to resolve this situation include: 1) writing to all educators with announcements and advertisements for summer opportunities for High School Juniors, 2) contacting alumni who educators in school districts with a significant number of Native American students, 3) utilizing the UMM STEP review board to make additional contacts in reservations, and 4) bringing UMM STEP students to High Schools to talk about their experiences and answer questions about UMM. This research is funded by the NSF STEP program (NSF/DUE-0653063).

Countering misinformation and demagoguery in an age of uncertainty and "post-fact" politics: Climate change and beyond

NASA Astrophysics Data System (ADS)

Lewandowsky, S.

2016-12-01

Undergraduate students often participate in research by following the vision, creativity, and procedures established by their principal investigators. Students at the undergraduate level rarely get a chance to direct the course of their own research and have little experience creatively solving advanced problems and establishing project objectives. This lack of independence and ingenuity results in students missing out on some of the most key aspects of research. For the last two years, the Undergraduate Student Instrument Project (USIP) at the University of Houston has encouraged students to become more independent scientists by completing a research project from start to finish with minimal reliance on faculty mentors. As part of USIP, students were responsible for proposing scientific questions about the upper stratosphere, designing instruments to answer those questions, and launching their experiments into the atmosphere of Fairbanks, Alaska. Everything from formulation of experiment ideas to actual launching of the balloon borne payloads was planned by and performed by students; members of the team even established a student leadership system, handled monetary responsibilities, and coordinated with NASA representatives to complete design review requirements. This session will discuss the pros and cons of student-led research by drawing on USIP as an example, focusing specifically on how the experience impacted student engagement and retention in the program. This session will also discuss how to encourage students to disseminate their knowledge through conferences, collaborations, and educational outreach initiatives by again using USIP students as an example.

Connecting self-efficacy and views about the nature of science in undergraduate research experiences

NASA Astrophysics Data System (ADS)

Quan, Gina M.; Elby, Andrew

2016-12-01

Undergraduate research can support students' more central participation in physics. We analyze markers of two coupled shifts in participation: changes in students' views about the nature of science coupled to shifts in self-efficacy toward physics research. Students in the study worked with faculty and graduate student mentors on research projects while also participating in a seminar where they learned about research and reflected on their experiences. In classroom discussions and in clinical interviews, students described gaining more nuanced views about the nature of science, specifically related to who can participate in research and what participation in research looks like. This shift was coupled to gains in self-efficacy toward their ability to contribute to research; they felt like their contributions as novices mattered. We present two case studies of students who experienced coupled shifts in self-efficacy and views about nature-of-science shifts, and a case study of a student for whom we did not see either shift, to illustrate both the existence of the coupling and the different ways it can play out. After making the case that this coupling occurs, we discuss some potential underlying mechanisms. Finally, we use these results to argue for more nuanced interpretations of self-efficacy measurements.

First year undergraduate nursing students and nursing mentors: An evaluation of their experience of specialist areas as their hub practice learning environment.

PubMed

McCallum, Jacqueline; Lamont, David; Kerr, Emma-Louise

2016-01-01

Specialist environments have traditionally not been considered as practice learning environments for year one nursing students. Through implementation of the hub and spoke model of practice learning this was implemented across one health board and Higher Education Institution in Scotland. Sixty nine students from specialist and 147 from general areas out of a total population of 467 students (46.2%) and thirteen mentors from specialist and 26 from general areas out of a total 577 mentors (6.7%) completed a questionnaire. The findings support this initiative and suggest in some cases student experiences are more positive in specialist environments. Copyright © 2015 Elsevier Ltd. All rights reserved.

Patching the Pipeline: Reducing Educational Disparities in the Sciences Through Minority Training Programs

PubMed Central

Schultz, P. Wesley; Hernandez, Paul R.; Woodcock, Anna; Estrada, Mica; Chance, Randie C.; Aguilar, Maria; Serpe, Richard T.

2013-01-01

For more than 40 years, there has been a concerted national effort to promote diversity among the scientific research community. Yet given the persistent national-level disparity in educational achievements of students from various ethnic and racial groups, the efficacy of these programs has come into question. The current study reports results from a longitudinal study of students supported by a national National Institutes of Health–funded minority training program, and a propensity score matched control. Growth curve analyses using Hierarchical Linear Modeling show that students supported by Research Initiative for Science Excellence were more likely to persist in their intentions to pursue a scientific research career. In addition, growth curve analyses indicate that undergraduate research experience, but not having a mentor, predicted student persistence in science. PMID:24285910

Recycling Mentors: an intergenerational, service-learning program to promote recycling and environmental awareness.

PubMed

D'abundo, Michelle L; Fugate-Whitlock, Elizabeth I; Fiala, Kelly A

2011-01-01

The purpose of Recycling Mentors was to implement an intergenerational, service-learning program focused on promoting recycling and environmental awareness among students enrolled in Community Health (HEA 301) and Current Issues in Gerontology (GRN 440/540) and adults older than 60 years. Recycling Mentors was conducted in New Hanover County (NHC), North Carolina, where a moderate climate and coastal location attracts many tourists, retirees, and college students. A community like NHC is a good place to implement service-learning that educates both students and older adults about the benefits of recycling to individual health and the environment. During the Fall 2009 semester, undergraduate and graduate students completed institutional review board training and then conducted the program with older adults. The education component of Recycling Mentors included a pre/post survey, brochure, and scheduled visits. Overall, Recycling Mentors was positive service-learning experience with students identifying salient outcomes such as learning about recycling and the environment and working with older adults. In addition, teaching the education component of Recycling Mentors was good practice for students who will be the future health professionals. While service-learning and environmentally themed projects are common, a program that combines the 2 like Recycling Mentors is unique and has the potential to motivate individual change while positively impacting the local community and the environment.

Mentor judgements and decision-making in the assessment of student nurse competence in practice: A mixed-methods study.

PubMed

Burden, Sarah; Topping, Anne Elizabeth; O'Halloran, Catherine

2018-05-01

To investigate how mentors form judgements and reach summative assessment decisions regarding student competence in practice. Competence assessment is a significant component of pre-registration nursing programmes in the United Kingdom. Concerns exist that assessments are subjective, lack consistency and that mentors fail to judge student performance as unsatisfactory. A two-stage sequential embedded mixed-methods design. Data collected 2012-2013. This study involved a whole student cohort completing a UK undergraduate adult nursing programme (N = 41). Stage 1: quantitative data on mentor conduct of assessment interviews and the final decision recorded (N = 330 from 270 mentors) were extracted from student Practice Assessment Documents (PADs). Stage 2: mentor feedback in student PADs was used in Stimulated Recall interviews with a purposive sample of final placement mentors (N = 17). These were thematically analysed. Findings were integrated to develop a theoretically driven model of mentor decision-making. Course assessment strategies and documentation had limited effect in framing mentor judgements and decisions. Rather, mentors amassed impressions, moderated by expectations of an "idealized student" by practice area and programme stage that influenced their management and outcome of the assessment process. These impressions were accumulated and combined into judgements that informed the final decision. This process can best be understood and conceptualized through the Brunswik's lens model of social judgement. Mentor decisions were reasoned and there was a shared understanding of judgement criteria and their importance. This impression-based nature of mentor decision-making questions the reliability and validity of competency-based assessments used in nursing pre-registration programmes. © 2017 John Wiley & Sons Ltd.

Recruiting and retaining future generations of physician scientists in mental health.

PubMed

Kupfer, David J; Hyman, Steven E; Schatzberg, Alan F; Pincus, Harold A; Reynolds, Charles F

2002-07-01

The authors discuss 6 challenges facing the recruitment and retention of physician scientists as career mental health researchers. These challenges include (1) early identification and recruitment at the undergraduate and medical student level; (2) recruitment of a more diverse group of trainees; (3) safety nets for reducing attrition; (4) strategies to promote successful competition for K awards; (5) definition of appropriate roles and career development opportunities in multisite clinical trials; and (6) strategies for the mentoring "cost." A coalition of stakeholders--federal, academic, foundational, and in the pharmaceutical industry--is needed to meet these challenges.

Promoting fundamental clinical skills: a competency-based college approach at the University of Washington.

PubMed

Goldstein, Erika A; Maclaren, Carol F; Smith, Sherilyn; Mengert, Terry J; Maestas, Ramoncita R; Foy, Hugh M; Wenrich, Marjorie D; Ramsey, Paul G

2005-05-01

The focus on fundamental clinical skills in undergraduate medical education has declined over the last several decades. Dramatic growth in the number of faculty involved in teaching and increasing clinical and research commitments have contributed to depersonalization and declining individual attention to students. In contrast to the close teaching and mentoring relationship between faculty and students 50 years ago, today's medical students may interact with hundreds of faculty members without the benefit of a focused program of teaching and evaluating clinical skills to form the core of their four-year curriculum. Bedside teaching has also declined, which may negatively affect clinical skills development. In response to these and other concerns, the University of Washington School of Medicine has created an integrated developmental curriculum that emphasizes bedside teaching and role modeling, focuses on enhancing fundamental clinical skills and professionalism, and implements these goals via a new administrative structure, the College system, which consists of a core of clinical teachers who spend substantial time teaching and mentoring medical students. Each medical student is assigned a faculty mentor within a College for the duration of his or her medical school career. Mentors continuously teach and reflect with students on clinical skills development and professionalism and, during the second year, work intensively with them at the bedside. They also provide an ongoing personal faculty contact. Competency domains and benchmarks define skill areas in which deepening, progressive attention is focused throughout medical school. This educational model places primary focus on the student.

Underrepresented Minority High School and College Students Report STEM-Pipeline Sustaining Gains After Participating in the Loma Linda University Summer Health Disparities Research Program

PubMed Central

Salto, Lorena M.; Riggs, Matt L.; Delgado De Leon, Daisy; Casiano, Carlos A.; De Leon, Marino

2014-01-01

An urgent need exists for graduate and professional schools to establish evidence-based STEM (science, technology, engineering, and math) pipeline programs to increase the diversity of the biomedical workforce. An untapped yet promising pool of willing participants are capable high school students that have a strong STEM interest but may lack the skills and the guided mentoring needed to succeed in competitive STEM fields. This study evaluates and compares the impact of the Loma Linda University (LLU) Summer Health Disparities Research Program on high school (HS) and undergraduate (UG) student participants. The primary focus of our summer research experience (SRE) is to enhance the research self-efficacy of the participants by actively involving them in a research project and by providing the students with personalized mentoring and targeted career development activities, including education on health disparities. The results of our study show that our SRE influenced terminal degree intent and increased participant willingness to incorporate research into future careers for both the HS and the UG groups. The quantitative data shows that both the HS and the UG participants reported large, statistically significant gains in self-assessed research skills and research self-efficacy. Both participant groups identified the hands-on research and the mentor experience as the most valuable aspects of our SRE and reported increased science skills, increased confidence in science ability and increased motivation and affirmation to pursue a science career. The follow-up data indicates that 67% of the HS participants and 90% of the UG participants graduated from college with a STEM degree; for those who enrolled in graduate education, 61% and 43% enrolled in LLU, respectively. We conclude that structured SREs can be highly effective STEM strengthening interventions for both UG and HS students and may be a way to measurably increase institutional and biomedical workforce diversity. PMID:25250695

Early Opportunities Research Partnership Between Howard University, University of Maryland Baltimore County and NASA Goddard for Engaging Underrepresented STEM Students in Earth and Space Sciences

NASA Astrophysics Data System (ADS)

Misra, P.; Venable, D. D.; Hoban, S.; Demoz, B.; Bleacher, L.; Meeson, B. W.; Farrell, W. M.

2017-12-01

Howard University, University of Maryland Baltimore County and NASA Goddard Space Flight Center (GSFC) are collaborating to engage underrepresented STEM students and expose them to an early career pathway in NASA-related Earth & Space Science research. The major goal is to instill interest in Earth and Space Science to STEM majors early in their academic careers, so that they become engaged in ongoing NASA-related research, motivated to pursue STEM careers, and perhaps become part of the future NASA workforce. The collaboration builds on a program established by NASA's Dynamic Response of the Environments of Asteroids, the Moon and the moons of Mars (DREAM2) team to engage underrepresented students from Howard in summer internships. Howard leveraged this program to expand via NASA's Minority University Research and Education Project (MUREP) funding. The project pairs Howard students with GSFC mentors and engages them in cutting-edge Earth and Space Science research throughout their undergraduate tenure. The project takes a multi-faceted approach, with each year of the program specifically tailored to each student's strengths and addressing their weaknesses, so that they experience a wide array of enriching research and professional development activities that help them grow both academically and professionally. During the academic year, the students are at Howard taking a full load of courses towards satisfying their degree requirements and engaging in research with their GSFC mentors via regular telecons, e-mail exchanges, video chats & on an average one visit per semester to GSFC for an in-person meeting with their research mentor. The students extend their research with full-time summer internships at GSFC, culminating in a Capstone Project and Senior Thesis. As a result, these Early Opportunities Program students, who have undergone rigorous training in the Earth and Space Sciences, are expected to be well-prepared for graduate school and the NASA workforce.

Underrepresented minority high school and college students report STEM-pipeline sustaining gains after participating in the Loma Linda University Summer Health Disparities Research Program.

PubMed

Salto, Lorena M; Riggs, Matt L; Delgado De Leon, Daisy; Casiano, Carlos A; De Leon, Marino

2014-01-01

An urgent need exists for graduate and professional schools to establish evidence-based STEM (science, technology, engineering, and math) pipeline programs to increase the diversity of the biomedical workforce. An untapped yet promising pool of willing participants are capable high school students that have a strong STEM interest but may lack the skills and the guided mentoring needed to succeed in competitive STEM fields. This study evaluates and compares the impact of the Loma Linda University (LLU) Summer Health Disparities Research Program on high school (HS) and undergraduate (UG) student participants. The primary focus of our summer research experience (SRE) is to enhance the research self-efficacy of the participants by actively involving them in a research project and by providing the students with personalized mentoring and targeted career development activities, including education on health disparities. The results of our study show that our SRE influenced terminal degree intent and increased participant willingness to incorporate research into future careers for both the HS and the UG groups. The quantitative data shows that both the HS and the UG participants reported large, statistically significant gains in self-assessed research skills and research self-efficacy. Both participant groups identified the hands-on research and the mentor experience as the most valuable aspects of our SRE and reported increased science skills, increased confidence in science ability and increased motivation and affirmation to pursue a science career. The follow-up data indicates that 67% of the HS participants and 90% of the UG participants graduated from college with a STEM degree; for those who enrolled in graduate education, 61% and 43% enrolled in LLU, respectively. We conclude that structured SREs can be highly effective STEM strengthening interventions for both UG and HS students and may be a way to measurably increase institutional and biomedical workforce diversity.

Engaging actively with issues in the responsible conduct of science: lessons from international efforts are relevant for undergraduate education in the United States.

PubMed

Clements, John D; Connell, Nancy D; Dirks, Clarissa; El-Faham, Mohamed; Hay, Alastair; Heitman, Elizabeth; Stith, James H; Bond, Enriqueta C; Colwell, Rita R; Anestidou, Lida; Husbands, Jo L; Labov, Jay B

2013-01-01

Numerous studies are demonstrating that engaging undergraduate students in original research can improve their achievement in the science, technology, engineering, and mathematics (STEM) fields and increase the likelihood that some of them will decide to pursue careers in these disciplines. Associated with this increased prominence of research in the undergraduate curriculum are greater expectations from funders, colleges, and universities that faculty mentors will help those students, along with their graduate students and postdoctoral fellows, develop an understanding and sense of personal and collective obligation for responsible conduct of science (RCS). This Feature describes an ongoing National Research Council (NRC) project and a recent report about educating faculty members in culturally diverse settings (Middle East/North Africa and Asia) to employ active-learning strategies to engage their students and colleagues deeply in issues related to RCS. The NRC report describes the first phase of this project, which took place in Aqaba and Amman, Jordan, in September 2012 and April 2013, respectively. Here we highlight the findings from that report and our subsequent experience with a similar interactive institute in Kuala Lumpur, Malaysia. Our work provides insights and perspectives for faculty members in the United States as they engage undergraduate and graduate students, as well as postdoctoral fellows, to help them better understand the intricacies of and connections among various components of RCS. Further, our experiences can provide insights for those who may wish to establish "train-the-trainer" programs at their home institutions.

Engaging Actively with Issues in the Responsible Conduct of Science: Lessons from International Efforts Are Relevant for Undergraduate Education in the United States

PubMed Central

Clements, John D.; Connell, Nancy D.; Dirks, Clarissa; El-Faham, Mohamed; Hay, Alastair; Heitman, Elizabeth; Stith, James H.; Bond, Enriqueta C.; Colwell, Rita R.; Anestidou, Lida; Husbands, Jo L.; Labov, Jay B.

2013-01-01

Numerous studies are demonstrating that engaging undergraduate students in original research can improve their achievement in the science, technology, engineering, and mathematics (STEM) fields and increase the likelihood that some of them will decide to pursue careers in these disciplines. Associated with this increased prominence of research in the undergraduate curriculum are greater expectations from funders, colleges, and universities that faculty mentors will help those students, along with their graduate students and postdoctoral fellows, develop an understanding and sense of personal and collective obligation for responsible conduct of science (RCS). This Feature describes an ongoing National Research Council (NRC) project and a recent report about educating faculty members in culturally diverse settings (Middle East/North Africa and Asia) to employ active-learning strategies to engage their students and colleagues deeply in issues related to RCS. The NRC report describes the first phase of this project, which took place in Aqaba and Amman, Jordan, in September 2012 and April 2013, respectively. Here we highlight the findings from that report and our subsequent experience with a similar interactive institute in Kuala Lumpur, Malaysia. Our work provides insights and perspectives for faculty members in the United States as they engage undergraduate and graduate students, as well as postdoctoral fellows, to help them better understand the intricacies of and connections among various components of RCS. Further, our experiences can provide insights for those who may wish to establish “train-the-trainer” programs at their home institutions. PMID:24297287

Teacher-Researcher Professional Development: Case Study at Kansas State University

NASA Astrophysics Data System (ADS)

Rebello, N. Sanjay; Fletcher, Peter R.

2006-02-01

We report on a case study which provides professional development to advanced undergraduate and graduate research team members of the Kansas State University Physics Education Research (KSU-PER) group. An integral component of a student's professional development is the opportunity to participate in a range of research activities and work in collaboration — both as a mentor and a junior researcher with a range of individuals. In order to coordinate and facilitate these opportunities KSU-PER established an ongoing research project investigating students' conceptions of the physics underlying devices. The project utilized an integrated methodological and administrative framework — combining elements from grounded theory, phenomenology and action research. This framework provides a forum and research setting allowing junior and experienced researchers to act in various project management roles and perform a range of research activities. We will conclude by reflecting upon our experiences.

Increasing Diversity in the Geosciences at the City University of New York

NASA Astrophysics Data System (ADS)

Damas, C.; Johnson, L.; McHugh, C.; Marchese, P. J.

2007-12-01

The City University of New York (CUNY) is the nation's largest urban university, with 23 institutions serving a large number of underrepresented minority (URM) and women students at all levels of the pipeline - community college to graduate school. CUNY has a strong record of recruiting, enrolling, retaining and graduating URMs in science, technology, engineering and mathematics (STEM) fields. Current efforts are underway to increase the number of URMs in the geosciences. These efforts include: 1) involving students in research at all levels of the pipeline; 2) incorporating innovative and proven pedagogical methods into the classroom; and 3) mentoring of students by research scientists from CUNY and other participating institutions. At all levels of the pipeline, students are actively engaged in Space and Earth Science research. At the community college level, students are introduced to the scientific research process through familiar software such as MS Excel to analyze simple time series. At the senior colleges, students progress to multi-variate data analysis, and they also have the opportunity to go into the field to collect data. As graduate students, they are involved as mentors and supervise undergraduate student research. Program initiatives such as the CUNY pipeline provide stipends and academic enrichment activities (i.e., GRE training, applying to graduate school, etc.) throughout the summer and academic year. During the summer, students also have the opportunity to work with and be mentored by research scientists at a CUNY campus, at a NASA center or a national laboratory. Mentors advise students about graduate school and careers, serve as role models, and perhaps more importantly, provide encouragement to students who lack confidence in their ability to do scientific research. Students also are expected to present their research findings at meetings and conferences, both locally and nationally. In addition to their research experiences, students also benefit from classroom instructions that emphasize active learning, and the integration of research related activities. Proven educational materials and pedagogical methods developed at Medgar Evers College and Queensborough Community College have proven quite effective at engaging and assisting students who have conceptual difficulties in their science and mathematics courses. Overall, students demonstrate an increase in their conceptual understanding of the subject matter, as well an increase in their confidence to solve scientific problems and to become scientists.

Peer-assisted learning--beyond teaching: How can medical students contribute to the undergraduate curriculum?

PubMed

Furmedge, Daniel S; Iwata, Kazuya; Gill, Deborah

2014-09-01

Peer-assisted learning (PAL) has become increasingly popular over recent years with many medical schools now formally incorporating peer-teaching programs into the curriculum. PAL has a sound evidence base with benefit to both peer-teacher and peer-learner. Aside from in teaching delivery, empowering students to develop education in its broadest sense has been much less extensively documented. Five case studies with supportive evaluation evidence illustrate the success of a broad range of peer-led projects in the undergraduate medical curriculum, particularly where these have been embedded into formal teaching practices. These case studies identify five domains of teaching and support of learning where PAL works well: teaching and learning, resource development, peer-assessment, education research and evaluation and mentoring and support. Each case offers ways of engaging students in each domain. Medical students can contribute significantly to the design and delivery of the undergraduate medical program above and beyond the simple delivery of peer-assisted "teaching". In particular, they are in a prime position to develop resources and conduct research and evaluation within the program. Their participation in all stages enables them to feel involved in course development and education of their peers and ultimately leads to an increase in student satisfaction.

Successes and Challenges in the SAGE (Summer of Applied Geophysical Experience) REU Program

NASA Astrophysics Data System (ADS)

Braile, L. W.; Baldridge, W. S.; Pellerin, L.; Ferguson, J. F.; Bedrosian, P.; Biehler, S.; Jiracek, G. R.; Snelson, C. M.; Kelley, S.; McPhee, D.

2014-12-01

The SAGE program was initiated in 1983 to provide an applied geophysics research and education experience for students. Since 1983, 820 students have completed the SAGE summer program. Beginning in 1992, with funding from the NSF, SAGE has included an REU (Research Experience for Undergraduates) experience for selected undergraduate students from U.S. colleges and universities. Since 1992, 380 undergraduate REU students have completed the SAGE program. The four week, intensive, summer program is based in Santa Fe, New Mexico, and involves students in learning geophysical theory and applications; collection of geophysical field data in the northern Rio Grande Rift area; data processing, modeling and interpretation; and presentation (oral and written) of results of each student's research results. Students (undergraduates, graduates and professionals) and faculty are together on a school campus for the summer program. Successful strategies (developed over the years) of the program include teamwork experience, mentoring of REUs (by faculty and more senior students), cultural interchange due to students from many campuses across the U.S. and international graduate students, including industry visitors who work with the students and provide networking, a capstone experience of the summer program that includes all students making a "professional-meeting" style presentation of their research and submitting a written report, a follow-up workshop for the REU students to enhance and broaden their experience, and providing professional development for the REUs through oral or poster presentations and attendance at a professional meeting. Program challenges include obtaining funding from multiple sources; significant time investment in program management, reporting, and maintaining contact with our many funding sources and industry affiliates; and, despite significant efforts, limited success in recruiting racial and ethnic minority students to the program.

The pipeline training program in maternal and child health: interdisciplinary preparation of undergraduate students from underrepresented groups.

PubMed

Pizur-Barnekow, Kris; Rhyner, Paula M; Lund, Shelley

2010-05-01

The Preparing Academically Successful Students in Maternal and Child Health (MCH PASS) training program provided financial support and specialized training to occupational therapy (OT) and speech-language pathology (SLP) undergraduate students from underrepresented groups in maternal and child health. The project assisted undergraduate trainees to matriculate into graduate programs in their respective fields and facilitated application into long-term maternal and child health training programs. Sixteen trainees (8 OT and 8 SLP) participated in an undergraduate training program with an emphasis on interdisciplinary teaming, family mentoring, leadership development, public health and population-based research. Instruction occurred in community and classroom settings through didactic instruction and small group discussions. Fifteen of the trainees applied to and were accepted in graduate programs in their respective fields. Two trainees applied to a long-term MCH training program. Students reported increased knowledge about programs that serve women and children, the effects of poverty on health, interdisciplinary teaming and the daily routines of families who have a child with a special health care need. The MCH PASS program provided a unique opportunity for undergraduate students in OT and SLP to learn about public health with an emphasis on maternal and child health. The specialized preparation enabled students to understand better the health concerns of underserved families whose children have special health care needs.

The SARA REU Site Program

NASA Astrophysics Data System (ADS)

Wood, M. A.; Oswalt, T. D.; SARA Collaboration

2000-12-01

We present an overview of the Research Experiences for Undergraduates (REU) Site Program hosted by the Southeastern Association for Research in Astronomy (SARA) for the past 6 years. SARA is a consortium of the six universities: Florida Institute of Technology, East Tennessee State University, Florida International University, The University of Georgia, Valdosta State University, and Clemson University. We host 10-11 student interns per year out of an application pool of ~150-200. Recruiting flyers are sent to the ~3400 undergraduate institutions in the United States, and we use a web-based application form and review process. We are a distributed REU Site, but come together for group meetings at the beginning and end of the summer program and stay in contact in between using email list manager software. Interns complete a research project working one-on-one with a faculty mentor, and each intern travels to observe at the SARA Observatory at Kitt Peak National Observatory. Interns give both oral and display presentations of their results at the final group meeting. In addition, all interns write a paper for publication in the IAPPP Communications, an international amateur-professional journal, and several present at professional meetings and in refereed publications. We include in the group meetings a ``how-to'' session on giving talks and posters, an Ethics Session, and a session on Women in Astronomy. This work was supported by the NSF Research Experiences for Undergraduates (REU) Site Program through grant AST 96169939 to The Florida Institute of Technology.

The Effects of Mentored Problem-Based STEM Teaching on Pre-Service Elementary Teachers: Scientific Reasoning and Attitudes Toward STEM Subjects

NASA Astrophysics Data System (ADS)

Caliendo, Julia C.

Problem-based learning in clinical practice has become an integral part of many professional preparation programs. This quasi-experimental study compared the effect of a specialized 90-hour field placement on elementary pre-service teachers' scientific reasoning and attitudes towards teaching STEM (science, technology, engineering, and math) subjects. A cohort of 53 undergraduate elementary education majors, concurrent to their enrollment in science and math methods classes, were placed into one of two clinical practice experiences: (a) a university-based, problem-based learning (PBL), STEM classroom, or (b) a traditional public school classroom. Group gain scores on the Classroom Test of Scientific Reasoning (CTSR) and the Teacher Efficacy and Attitudes Toward STEM Survey-Elementary Teachers (T-STEM) survey were calculated. A MANCOVA revealed that there was a significant difference in gain scores between the treatment and comparison groups' scientific reasoning (p = .011) and attitudes towards teaching STEM subjects (p = .004). The results support the hypothesis that the pre-service elementary teachers who experienced STEM mentoring in a PBL setting will have an increase in their scientific reasoning and produce positive attitudes towards teaching STEM subjects. In addition, the results add to the existing research suggesting that elementary pre-service teachers require significant academic preparation and mentored support in STEM content.

A strategy for developing future academic leaders for South Africa in a resource-constrained environment.

PubMed

Lalloo, Umesh G; Bobat, Raziya A; Pillay, Sandy; Wassenaar, Douglas

2014-08-01

A key challenge in addressing the shortage of health care workers in resource-constrained environments is ensuring that there is optimal academic capacity for their training. South Africa's University of KwaZulu-Natal has placed academic and research capacity building at the heart of its program with the Medical Education Partnership Initiative in a program called ENhancing Training and REsearch capacity and Expertise (ENTREE). The program aims to increase the quantity, quality, and retention of health care graduates. It is premised on the basis that research capacity development will lead to an increase in teachers who will be essential to improving the quality and quantity of health care workers needed to meet South Africa's health challenges. This is being achieved through four components of the program: (1) infusion of the undergraduate program with research modules; (2) attraction of academically talented students in the middle of their undergraduate program into a parallel track that has research capacity as its major thrust; (3) attraction of qualified health care personnel into a supported PhD program; and (4) providing strong research ethics training and mentorship. A significant proportion of the program is being executed in rural training sites, to increase the probability that trainees will return to the sites as mentors.

Having mentors and campus social networks moderates the impact of worries and video gaming on depressive symptoms: a moderated mediation analysis

PubMed Central

2014-01-01

Background Easy access to the internet has spawned a wealth of research to investigate the effects of its use on depression. However, one limitation of many previous studies is that they disregard the interactive mechanisms of risk and protective factors. The aim of the present study was to investigate a resilience model in the relationship between worry, daily internet video game playing, daily sleep duration, mentors, social networks and depression, using a moderated mediation analysis. Methods 6068 Korean undergraduate and graduate students participated in this study. The participants completed a web-based mental health screening questionnaire including the Beck Depression Inventory (BDI) and information about number of worries, number of mentors, number of campus social networks, daily sleep duration, daily amount of internet video game playing and daily amount of internet searching on computer or smartphone. A moderated mediation analysis was carried out using the PROCESS macro which allowed the inclusion of mediators and moderator in the same model. Results The results showed that the daily amount of internet video game playing and daily sleep duration partially mediated the association between the number of worries and the severity of depression. In addition, the mediating effect of the daily amount of internet video game playing was moderated by both the number of mentors and the number of campus social networks. Conclusions The current findings indicate that the negative impact of worry on depression through internet video game playing can be buffered when students seek to have a number of mentors and campus social networks. Interventions should therefore target individuals who have higher number of worries but seek only a few mentors or campus social networks. Social support via campus mentorship and social networks ameliorate the severity of depression in university students. PMID:24884864

Effects of Mentoring Speed Dating as an Innovative Matching Tool in Undergraduate Medical Education: A Mixed Methods Study.

PubMed

Guse, Jennifer; Schweigert, Eva; Kulms, Gerhild; Heinen, Ines; Martens, Claudia; Guse, Andreas H

2016-01-01

Choosing the right mentor is crucial for effective mentorship. Yet, many medical students have difficulties finding a suitable mentor. Thus we developed mentoring speed dating (MSD) as a promising matching tool to connect students and faculty mentors successfully. The purpose of this study was to explore mentees' and mentors' experience with MSD and investigate the impact of MSD on the perceived mentorship quality and continuance of the mentoring relationship. The authors completed a mixed methods study at the University Medical Center Hamburg-Eppendorf, Germany, between June 2011 and March 2014. They conducted four focus groups with mentees and mentors who participated in a mentoring speed dating event and analyzed transcripts using conventional content analysis with inductive categorizing. In addition, three mentoring cohorts (two matched via MSD, one matched via conventional online profiles) were surveyed on mentorship satisfaction and the 1-year continuance of their mentorship was monitored. Fifteen mentees and fifteen mentors participated in the focus groups. The authors identified several themes such as short and long term benefits of MSD and fulfillment of expectations. Benefits included finding out about the personal connection, matching expectations, providing an efficient overview of candidates. The survey was completed by 93 students (n = 29 without MSD; n = 64 with MSD). Independent t-tests and multivariate analysis of variance were used to analyze the impact of MSD on student's mentorship satisfaction. There were significant differences in responses to the items "Commitment of mentor" (p = .019) and "Constructive feedback" (p = .038) among the students who attended MSD and the students without MSD. After one year far more mentoring relationships existed among those mentees who participated in MSD in comparison to the "no MSD group". MSD is a valuable matching tool with beneficial effects on the mentorship quality. It enhances essential factors in the mentoring relationship such as commitment and satisfaction.

A Research Experiences for Undergraduates program (REU) Program Designed to Recruit, Engage and Prepare a Diverse Student Population for Careers in Ocean Sciences.

NASA Astrophysics Data System (ADS)

Clarkston, B. E.; Garza, C.

2016-02-01

The problem of improving diversity within the Ocean Sciences workforce—still underperforming relative to other scientific disciplines—can only be addressed by first recruiting and engaging a more diverse student population into the discipline, then retaining them in the workforce. California State University, Monterey Bay (CSUMB) is home to the Monterey Bay Regional Ocean Science Research Experiences for Undergraduates (REU) program. As an HSI with strong ties to multiple regional community colleges and other Predominantly Undergraduate Institutions (PUIs) in the CSU system, the Monterey Bay REU is uniquely positioned to address the crucial recruitment and engagement of a diverse student body. Eleven sophomore and junior-level undergraduate students are recruited per year from academic institutions where research opportunities in STEM are limited and from groups historically underrepresented in the Ocean Sciences, including women, underrepresented minorities, persons with disabilities, and veterans. During the program, students engage in a 10-week original research project guided by a faculty research mentor in one of four themes: Oceanography, Marine Biology and Ecology, Ocean Engineering, and Marine Geology. In addition to research, students develop scientific self-efficacy and literacy skills through rigorous weekly professional development workshops in which they practice critical thinking, ethical decision-making, peer review, writing and oral communication skills. These workshops include tangible products such as an NSF-style proposal paper, Statement of Purpose and CV modelled for the SACNAS Travel Award Application, research abstract, scientific report and oral presentation. To help retain students in Ocean Sciences, students build community during the REU by living together in the CSUMB dormitories; post-REU, students stay connected through an online facebook group, LinkedIn page and group webinars. To date, the REU has supported 22 students in two cohorts (2014, 2015) and here we present successes, challenges and lessons learned for an innovative program designed to recruit, engage and prepare students for Ocean Science careers.

Configuring The REU Experience To Maximize Student Collaboration

NASA Astrophysics Data System (ADS)

Majkowski, L.; Pullin, M. J.

2012-12-01

The New Mexico Tech NSF-funded REU Program, Interdisciplinary Science for the Environment (ISE), hosted six cohorts of students between 2005 and 2010. The program ran for eight weeks during the first cycle and nine weeks during the second cycle, bringing in an average of twelve student participants per year. Students were provided with a stipend, food allowance, travel from home to New Mexico Tech, and free campus housing. The program sponsored weekend group field trips to scientific, environmental, and cultural sites of significance in New Mexico. For the second cycle, the ISE shared some programmatic elements with the New Mexico EPSCoR Undergraduate Research Opportunities Program (UROP). The majority of the research projects focused on the geosciences, with interdepartmental participation from researchers in earth science, hydrology, chemistry, environmental science, and biology. The ISE adopted a non-traditional approach to matching student participants with research projects and faculty mentors. Students were selected from different disciplines to work together in pairs on each project. This model provided the students with a peer collaborator in addition to the guidance of their faculty mentors and support from graduate students associated with the different projects. The focus on cohort, both within the individual research projects and each year's group, enabled and enhanced the students' critical thinking, problem-solving and teamwork skills. Students would routinely seek out the advice of their peers when they hit a roadblock in their research. This collaboration also occurred across the boundaries of the ISE and UROP cohorts. Long-term follow up has shown that a significant number of the student participants have continued on to graduate school. Students credit the program with developing their capacity to work on complex problems in an interdisciplinary group environment. Additionally, many students have continued contact with their research partners, faculty mentors and other members of their REU cohort.

Engaging diverse community college students in the geosciences through a year-round career mentoring and research workforce program

NASA Astrophysics Data System (ADS)

Sloan, V.; Barge, L. M.; Smith, M.

2017-12-01

Student attrition from STEM majors most often occurs in the first or second year of college. To retain underrepresented minority students who are largely enrolled in community colleges in STEM pathways, it is critical to provide hands-on experiences and exposure to STEM occupations in a supportive community, before the students transfer to four-year colleges. The goal of the Bridge to the Geosciences is to provide community college students with year-round career mentoring, exposure to different fields and organizations in the geosciences through small field or research experiences, and community-building within the cohort and in connection with a broader community of scientists. Each year, 20 students from Citrus College in Glendora, California participate in research "geomodules" organized around the planetary, atmospheric, ocean, and environmental science subfields of the geosciences at: (1) the Oak Crest Institute of Science, a chemistry research and diversity-oriented education organization in Monrovia, CA; (2) the NASA Jet Propulsion Laboratory (JPL), a NASA center in Pasadena, CA; (3) the University of Southern California's (USC) Wrigley Institute for Environmental Studies, a research center on Catalina Island; and (4) the University Corporation for Atmospheric Research (UCAR) in Boulder, CO. A peak experience of the program is a ten-day mini-internship at UCAR in Colorado where the students are immersed in atmospheric research, training, fieldwork, and presenting at a premier facility. Professional development, mentoring, science communication and cohort-development are woven across all four geomodules and throughout the year. This program is funded by the National Science Foundation's Improving Undergraduate STEM Education or IUSE program. Preliminary results indicate that the students' interest in the geosciences, confidence in their skills and identify as a scientist, and their sense of belonging to a cohort are increased by participation in this program.

Training the next generation of research mentors: the University of California, San Francisco, Clinical & Translational Science Institute Mentor Development Program.

PubMed

Feldman, Mitchell D; Huang, Laurence; Guglielmo, B Joseph; Jordan, Richard; Kahn, James; Creasman, Jennifer M; Wiener-Kronish, Jeanine P; Lee, Kathryn A; Tehrani, Ariane; Yaffe, Kristine; Brown, Jeanette S

2009-06-01

Mentoring is a critical component of career development and success for clinical translational science research faculty. Yet few programs train faculty in mentoring skills. We describe outcomes from the first two faculty cohorts who completed a Mentor Development Program (MDP) at UCSF. Eligibility includes having dedicated research time, expertise in a scientific area and a desire to be a lead research mentor. A post-MDP survey measured the program's impact on enhancement of five key mentoring skills, change in the Mentors-in-Training (MIT) self-rated importance of being a mentor to their career satisfaction, and overall confidence in their mentoring skills. Since 2007, 29 MITs participated in and 26 completed the MDP. Only 15% of the MITs reported any previous mentor training. Overall, 96% of MITs felt that participation in the MDP helped them to become better mentors. A majority reported a significant increase in confidence in mentoring skills and most reported an increased understanding of important mentoring issues at UCSF. MITs reported increased confidence in overall and specific mentoring skills after completion of the MDP. The MDP can serve as a model for other institutions to develop the next generation of clinical-translational research mentors.

A research mentor training curriculum for clinical and translational researchers.

PubMed

Pfund, Christine; House, Stephanie; Spencer, Kimberly; Asquith, Pamela; Carney, Paula; Masters, Kristyn S; McGee, Richard; Shanedling, Janet; Vecchiarelli, Stephanie; Fleming, Michael

2013-02-01

To design and evaluate a research mentor training curriculum for clinical and translational researchers. The resulting 8-hour curriculum was implemented as part of a national mentor training trial. The mentor training curriculum was implemented with 144 mentors at 16 academic institutions. Facilitators of the curriculum participated in a train-the-trainer workshop to ensure uniform delivery. The data used for this report were collected from participants during the training sessions through reflective writing, and following the last training session via confidential survey with a 94% response rate. A total of 88% of respondents reported high levels of satisfaction with the training experience, and 90% noted they would recommend the training to a colleague. Participants also reported significant learning gains across six mentoring competencies as well as specific impacts of the training on their mentoring practice. The data suggest the described research mentor training curriculum is an effective means of engaging research mentors to reflect upon and improve their research mentoring practices. The training resulted in high satisfaction, self-reported skill gains as well as behavioral changes of clinical and translational research mentors. Given success across 16 diverse sites, this training may serve as a national model. © 2012 Wiley Periodicals, Inc.

Life in the Universe - Astronomy and Planetary Science Research Experience for Undergraduates at the SETI Institute

NASA Astrophysics Data System (ADS)

Chiar, J.; Phillips, C. B.; Rudolph, A.; Bonaccorsi, R.; Tarter, J.; Harp, G.; Caldwell, D. A.; DeVore, E. K.

2016-12-01

The SETI Institute hosts an Astrobiology Research Experience for Undergraduates (REU) program. Beginning in 2013, we partnered with the Physics and Astronomy Dept. at Cal Poly Pomona, a Hispanic-serving university, to recruit underserved students. Over 11 years, we have served 155 students. We focus on Astrobiology since the Institute's mission is to explore, understand and explain the origin, nature and prevalence of life in the universe. Our REU students work with mentors at the Institute - a non-profit organization located in California's Silicon Valley-and at the nearby NASA Ames Research Center. Projects span research on survival of microbes under extreme conditions, planetary geology, astronomy, the Search for Extraterrestrial Intelligence (SETI), extrasolar planets and more. The REU program begins with an introductory lectures by Institute scientists covering the diverse astrobiology subfields. A week-long field trip to the SETI Institute's Allen Telescope Array (Hat Creek Radio Astronomy Observatory in Northern California) and field experiences at hydrothermal systems at nearby Lassen Volcanic National Park immerses students in radio astronomy and SETI, and extremophile environments that are research sites for astrobiologists. Field trips expose students to diverse environments and allow them to investigate planetary analogs as our scientists do. Students also participate in local trips to the California Academy of Sciences and other nearby locations of scientific interest, and attend the weekly scientific colloquium hosted by the SETI Institute at Microsoft, other seminars and lectures at SETI Institute and NASA Ames. The students meet and present at a weekly journal club where they hone their presentation skills, as well as share their research progress. At the end of the summer, the REU interns present their research projects at a session of the Institute's colloquium. As a final project, students prepare a 2-page formal abstract and 15-minute presentation that mirrors the requirements for professional conference presentations. In collaboration with the mentors, successful projects are selected and funded for submission to national scientific conferences during the subsequent academic year. This program is funded by the NSF AST Grant # 1359346.

Cultivating Native American scientists: an application of an Indigenous model to an undergraduate research experience

NASA Astrophysics Data System (ADS)

McMahon, Tracey R.; Griese, Emily R.; Kenyon, DenYelle Baete

2018-03-01

With growing evidence demonstrating the impact of undergraduate research experiences on educational persistence, efforts are currently being made to expand these opportunities within universities and research institutions throughout the United States. Recruiting underrepresented students into these programs has become an increasingly popular method of promoting diversity in science. Given the low matriculation into postsecondary education and completion rates among Native Americans, there is a great need for Native American undergraduate research internships. Although research has shown that Western education models tend to be less effective with Native populations, the implementation of indigenous epistemologies and pedagogies within higher education, including research experiences, is rare. This study explores the applicability of a cognitive apprenticeship merged with an indigenous approach, the Circle of Courage, to build a scientific learning environment and enhance the academic and professional development of Native students engaged in an undergraduate research experience in the health sciences. Data were drawn from focus groups with 20 students who participated in this program in 2012-2014. Questions explored the extent to which relational bonds between students and mentors were cultivated as well as the impact of this experience on the development of research skills, intellectual growth, academic and professional self-determination, and the attachment of meaning to their research experiences. Data were analyzed via deductive content analysis, allowing for an assessment of how the theoretical constructs inherent to this model (belonging, mastery, independence, and generosity) impacted students. Findings suggest that engaging Native students in research experiences that prioritize the needs of belonging, mastery, independence, and generosity can be a successful means of fostering a positive learning environment, in which students felt like significant members of a research team, developed a greater understanding and appreciation for the role of science in education and its various applications to socially relevant health issues, made more informed decisions about a career in research and the health sciences, and worked toward improving the health and well-being of others while also inspiring hope among their people back home. This study represents an extension of the application of the Circle of Courage to an undergraduate research experience and provides evidence of its ability to be used as a framework for cultivating Native scientists.

Mentoring in Clinical-Translational Research: A Study of Participants in Master's Degree Programs.

PubMed

McGinn, Aileen P; Lee, Linda S; Baez, Adriana; Zwanziger, Jack; Anderson, Karl E; Seely, Ellen W; Schoenbaum, Ellie

2015-12-01

Research projects in translational science are increasingly complex and require interdisciplinary collaborations. In the context of training translational researchers, this suggests that multiple mentors may be needed in different content areas. This study explored mentoring structure as it relates to perceived mentoring effectiveness and other characteristics of master's-level trainees in clinical-translational research training programs. A cross-sectional online survey of recent graduates of clinical research master's program was conducted. Of 73 surveys distributed, 56.2% (n = 41) complete responses were analyzed. Trainees were overwhelmingly positive about participation in their master's programs and the impact it had on their professional development. Overall the majority (≥75%) of trainees perceived they had effective mentoring in terms of developing skills needed for conducting clinical-translational research. Fewer trainees perceived effective mentoring in career development and work-life balance. In all 15 areas of mentoring effectiveness assessed, higher rates of perceived mentor effectiveness was seen among trainees with ≥2 mentors compared to those with solo mentoring (SM). In addition, trainees with ≥2 mentors perceived having effective mentoring in more mentoring aspects (median: 14.0; IQR: 12.0-15.0) than trainees with SM (median: 10.5; IQR: 8.0-14.5). Results from this survey suggest having ≥2 mentors may be beneficial in fulfilling trainee expectations for mentoring in clinical-translational training. © 2015 Wiley Periodicals, Inc.

Opening Pathways for Underrepresented High School Students to Biomedical Research Careers: The Emory University RISE Program

PubMed Central

Rohrbaugh, Margaret C.; Corces, Victor G.

2011-01-01

Increasing the college graduation rates of underrepresented minority students in science disciplines is essential to attain a diverse workforce for the 21st century. The Research Internship and Science Education (RISE) program attempts to motivate and prepare students from the Atlanta Public School system, where underrepresented minority (URM) students comprise a majority of the population, for biomedical science careers by offering the opportunity to participate in an original research project. Students work in a research laboratory from the summer of their sophomore year until graduation, mentored by undergraduate and graduate students and postdoctoral fellows (postdocs). In addition, they receive instruction in college-level biology, scholastic assessment test (SAT) preparation classes, and help with the college application process. During the last 4 yr, RISE students have succeeded in the identification and characterization of a series of proteins involved in the regulation of nuclear organization and transcription. All but 1 of 39 RISE students have continued on to 4-year college undergraduate studies and 61% of those students are currently enrolled in science-related majors. These results suggest that the use of research-based experiences at the high school level may contribute to the increased recruitment of underrepresented students into science-related careers. PMID:21926301

Opening pathways for underrepresented high school students to biomedical research careers: the Emory University RISE program.

PubMed

Rohrbaugh, Margaret C; Corces, Victor G

2011-12-01

Increasing the college graduation rates of underrepresented minority students in science disciplines is essential to attain a diverse workforce for the 21st century. The Research Internship and Science Education (RISE) program attempts to motivate and prepare students from the Atlanta Public School system, where underrepresented minority (URM) students comprise a majority of the population, for biomedical science careers by offering the opportunity to participate in an original research project. Students work in a research laboratory from the summer of their sophomore year until graduation, mentored by undergraduate and graduate students and postdoctoral fellows (postdocs). In addition, they receive instruction in college-level biology, scholastic assessment test (SAT) preparation classes, and help with the college application process. During the last 4 yr, RISE students have succeeded in the identification and characterization of a series of proteins involved in the regulation of nuclear organization and transcription. All but 1 of 39 RISE students have continued on to 4-year college undergraduate studies and 61% of those students are currently enrolled in science-related majors. These results suggest that the use of research-based experiences at the high school level may contribute to the increased recruitment of underrepresented students into science-related careers.

The influences and experiences of African American undergraduate science majors at predominately White universities

NASA Astrophysics Data System (ADS)

Blockus, Linda Helen

The purpose of this study is to describe and explore some of the social and academic experiences of successful African American undergraduate science majors at predominately White universities with the expectation of conceptualizing emerging patterns for future study. The study surveyed 80 upperclass African Americans at 11 public research universities about their perceptions of the influences that affect their educational experiences and career interests in science. The mailed survey included the Persistence/ voluntary Dropout Decision Scale, the Cultural Congruity Scale and the University Environment Scale. A variety of potential influences were considered including family background, career goals, psychosocial development, academic and social connections with the university, faculty relationships, environmental fit, retention factors, validation, participation in mentored research projects and other experiences. The students' sources of influences, opportunities for connection, and cultural values were considered in the context of a research university environment and investigated for emerging themes and direction for future research. Results indicate that performance in coursework appears to be the most salient factor in African American students' experience as science majors. The mean college gpa was 3.01 for students in this study. Challenging content, time demands, study habits and concern with poor grades all serve to discourage students; however, for most of the students in this study, it has not dissuaded them from their educational and career plans. Positive course performance provided encouragement. Science faculty provide less influence than family members, and more students find faculty members discouraging than supportive. Measures of faculty relations were not associated with academic success. No evidence was provided to confirm the disadvantages of being female in a scientific discipline. Students were concerned with lack of minority role models and African American faculty, as well as peers dropping out of science majors. Although experiences with racism were frequently cited, encounters with racism alone are not cause for African American science majors to consider changing majors or career plans. Approximately one third of the students have participated in undergraduate research projects or internships with faculty mentors; however, these experiences do not have substantial impact for most students. College grade point average was associated with research project participation. Approximately one-fourth of the students are engaged in some kind of science-oriented activity (e.g., club) that provided them with a sense of belonging and connection. Theoretical and conceptual implications as well as suggestions for study replication are provided.

Mentoring Early-Career Faculty Researchers Is Important-But First "Train the Trainer".

PubMed

Sood, Akshay; Tigges, Beth; Helitzer, Deborah

2016-12-01

It has long been known that mentoring is critical to the success of junior faculty researchers. The controlled intervention study by Libby et al published in this issue of Academic Medicine demonstrates that institutional investment in a mentored research career development program for early-career faculty investigators provided significant long-term gains in grant productivity. Academic institutions hoping to replicate this program's success by launching similar mentoring programs for their junior faculty investigators will, however, find that the Achilles' heel lies in the scarcity of skilled research mentors and the relative lack of attention to and recognition of the importance of a supportive institutional climate for mentoring. It is essential, therefore, to begin by developing programs to "train the trainer" as well as programs and policies to support mentors. As a recent trial at 16 Clinical and Translational Science Award institutions demonstrated, competency-based, structured research mentor training can improve mentors' skills.In this Commentary, the authors offer a comprehensive two-pronged framework for mentor development with elements that address both individual mentoring competencies and the institutional climate for mentoring. The framework depicts the gaps, activities, and outcomes that a mentor development program can address. Activities directed at changing the institutional climate related to mentor development should complement training activities for individual mentors. The authors propose that employing this framework's approach to mentor development will lead to the desired impact: to increase the competence, productivity, and retention of a diverse clinical and translational research workforce.

Incorporating Genomics and Bioinformatics across the Life Sciences Curriculum

DOE Office of Scientific and Technical Information (OSTI.GOV)

Ditty, Jayna L.; Kvaal, Christopher A.; Goodner, Brad

Undergraduate life sciences education needs an overhaul, as clearly described in the National Research Council of the National Academies publication BIO 2010: Transforming Undergraduate Education for Future Research Biologists. Among BIO 2010's top recommendations is the need to involve students in working with real data and tools that reflect the nature of life sciences research in the 21st century. Education research studies support the importance of utilizing primary literature, designing and implementing experiments, and analyzing results in the context of a bona fide scientific question in cultivating the analytical skills necessary to become a scientist. Incorporating these basic scientific methodologiesmore » in undergraduate education leads to increased undergraduate and post-graduate retention in the sciences. Toward this end, many undergraduate teaching organizations offer training and suggestions for faculty to update and improve their teaching approaches to help students learn as scientists, through design and discovery (e.g., Council of Undergraduate Research [www.cur.org] and Project Kaleidoscope [www.pkal.org]). With the advent of genome sequencing and bioinformatics, many scientists now formulate biological questions and interpret research results in the context of genomic information. Just as the use of bioinformatic tools and databases changed the way scientists investigate problems, it must change how scientists teach to create new opportunities for students to gain experiences reflecting the influence of genomics, proteomics, and bioinformatics on modern life sciences research. Educators have responded by incorporating bioinformatics into diverse life science curricula. While these published exercises in, and guidelines for, bioinformatics curricula are helpful and inspirational, faculty new to the area of bioinformatics inevitably need training in the theoretical underpinnings of the algorithms. Moreover, effectively integrating bioinformatics into courses or independent research projects requires infrastructure for organizing and assessing student work. Here, we present a new platform for faculty to keep current with the rapidly changing field of bioinformatics, the Integrated Microbial Genomes Annotation Collaboration Toolkit (IMG-ACT). It was developed by instructors from both research-intensive and predominately undergraduate institutions in collaboration with the Department of Energy-Joint Genome Institute (DOE-JGI) as a means to innovate and update undergraduate education and faculty development. The IMG-ACT program provides a cadre of tools, including access to a clearinghouse of genome sequences, bioinformatics databases, data storage, instructor course management, and student notebooks for organizing the results of their bioinformatic investigations. In the process, IMG-ACT makes it feasible to provide undergraduate research opportunities to a greater number and diversity of students, in contrast to the traditional mentor-to-student apprenticeship model for undergraduate research, which can be too expensive and time-consuming to provide for every undergraduate. The IMG-ACT serves as the hub for the network of faculty and students that use the system for microbial genome analysis. Open access of the IMG-ACT infrastructure to participating schools ensures that all types of higher education institutions can utilize it. With the infrastructure in place, faculty can focus their efforts on the pedagogy of bioinformatics, involvement of students in research, and use of this tool for their own research agenda. What the original faculty members of the IMG-ACT development team present here is an overview of how the IMG-ACT program has affected our development in terms of teaching and research with the hopes that it will inspire more faculty to get involved.« less

NASA/OAI Collaborative Aerospace Internship and Fellowship Program

NASA Technical Reports Server (NTRS)

1995-01-01

The NASA/OAI Collaborative Aerospace Internship and Fellowship Program is a collaborative undertaking by the Office of Educational Programs at the NASA Lewis Research Center and the Department of Workforce Enhancement at the Ohio Aerospace Institute. This program provides 12 or 14 week internships and 10 or 12 week fellowships for undergraduate and graduate students of science and engineering, and for secondary school teachers. Approximately 200 interns are selected to participate in this program and begin arriving the second week in May. Each intern is assigned a NASA mentor who facilitates a research assignment. An important aspect of the program is that it includes students with diverse social, cultural and economic backgrounds. The purpose of this report is to document the program accomplishments for 1994.

NASA/OAI Collaborative Aerospace Internship and Fellowship Program

NASA Technical Reports Server (NTRS)

1997-01-01

The NASA/OAI Collaborative Aerospace Internship and Fellowship Program is a collaborative undertaking by the Office of Educational Programs at the NASA Lewis Research Center and the Department of Workforce Enhancement at the Ohio Aerospace Institute. This program provides 12 or 14 week internships and 10 or 12 week fellowships for undergraduate and graduate students of science and engineering, and for secondary school teachers. Approximately 150 interns are selected to participate in this program and begin arriving the second week in May. Each intern is assigned a NASA mentor who facilitates a research assignment. An important aspect of the program is that it includes students with diverse social, cultural and economic backgrounds. The purpose of this report is to document the program accomplishments for 1995.

Intelligent Monitoring of Rocket Test Systems

NASA Technical Reports Server (NTRS)

Duran, Esteban; Rocha, Stephanie; Figueroa, Fernando

2016-01-01

Stephanie Rocha is an undergraduate student pursuing a degree in Mechanical Engineering. Esteban Duran is pursuing a degree in Computer Science. Our mentor is Fernando Figueroa. Our project involved developing Intelligent Health Monitoring at the High Pressure Gas Facility (HPGF) utilizing the software GensymG2.

Student evaluations of a year-long mentorship program: a quality improvement initiative.

PubMed

van Eps, Mary Ann; Cooke, Marie; Creedy, Debra K; Walker, Rachel

2006-08-01

Mentoring is an important teaching-learning process in undergraduate nursing curricula. There are relatively few studies specifically evaluating nursing students' perceptions of mentorship. In the period 1999-2002, 39 students were mentored during a year-long program. This descriptive, exploratory study used a quality improvement framework informed by the Deming cycle of Plan, Do, Check and Act [Deming, W.E., 1982. Quality, Productivity and Competitive Position. Massachusetts Institute of Technology, Cambridge] to evaluate the mentorship program from the students' perspective. Information was gathered through surveys, focus group discussions and interviews and analyzed to identify themes of responses. Identified themes were 'The doing of nursing', 'The thinking of nursing' and 'Being a nurse'. The study confirmed the value of mentorship in undergraduate nursing and highlighted the importance of skill competence as a basis for professional role identity by graduating students. The benefits of mentorship were derived from a long term, supportive relationship with the same registered nurse who was committed to the student's professional development.

Exploring Mentees' Perceptions of an Undergraduate Nurse Peer Mentorship Program.

PubMed

Lombardo, Celia; Wong, Carissa; Sanzone, Lia; Filion, Françoise; Tsimicalis, Argerie

2017-04-01

A nurse peer mentorship program was implemented to address the needs of undergraduate nursing students at an academic institution. The purpose of this study was to explore the perceptions of mentees who participated in the nurse peer mentorship program. A qualitative descriptive study was conducted. Data were collected using semistructured interviews that were transcribed verbatim and descriptively analyzed using an inductive approach. Eleven participants were interviewed. Participant narratives revealed themes related to the student experience as they transitioned to university and their unique needs that motivated them to join the program. Mentees described helpful mentor behaviors and provided insight into the academic, social, professional, and mental health benefits and personal growth experienced from peer mentorship. Participants shared factors that affected mentoring relationships. Study findings support the need for broad evaluations of peer mentorship programs and can inform educational leaders to improve mentorship support available for nursing students. [J Nurs Educ. 2017;56(4):227-230.]. Copyright 2017, SLACK Incorporated.

Institutional Incentives for Mentoring at the U.S. Department of Veterans Affairs and Universities: Associations With Mentors' Perceptions and Time Spent Mentoring.

PubMed

Maisel, Natalya C; Halvorson, Max A; Finney, John W; Bi, Xiaoyu; Hayashi, Ko P; Blonigen, Daniel M; Weitlauf, Julie C; Timko, Christine; Cronkite, Ruth C

2017-04-01

Limited empirical attention to date has focused on best practices in advanced research mentoring in the health services research domain. The authors investigated whether institutional incentives for mentoring (e.g., consideration of mentoring in promotion criteria) were associated with mentors' perceptions of mentoring benefits and costs and with time spent mentoring. The authors conducted an online survey in 2014 of a national sample of mentors of U.S. Department of Veterans Affairs (VA) Health Services Research and Development Service (HSR&D) mentored career development award recipients who received an award during 2000-2012. Regression analyses were used to examine institutional incentives as predictors of perceptions of benefits and costs of mentoring and time spent mentoring. Of the 145 mentors invited, 119 (82%) responded and 110 (76%) provided complete data for the study items. Overall, mentors who reported more institutional incentives also reported greater perceived benefits of mentoring (P = .03); however, more incentives were not significantly associated with perceived costs of mentoring. Mentors who reported more institutional incentives also reported spending a greater percentage of time mentoring (P = .02). University incentives were associated with perceived benefits of mentoring (P = .02), whereas VA incentives were associated with time spent mentoring (P = .003). Institutional policies that promote and support mentorship of junior investigators, specifically by recognizing and rewarding the efforts of mentors, are integral to fostering mentorship programs that contribute to the development of early-career health services researchers into independent investigators.

Training mentors of clinical and translational research scholars: a randomized controlled trial.

PubMed

Pfund, Christine; House, Stephanie C; Asquith, Pamela; Fleming, Michael F; Buhr, Kevin A; Burnham, Ellen L; Eichenberger Gilmore, Julie M; Huskins, W Charles; McGee, Richard; Schurr, Kathryn; Shapiro, Eugene D; Spencer, Kimberly C; Sorkness, Christine A

2014-05-01

To determine whether a structured mentoring curriculum improves research mentoring skills. The authors conducted a randomized controlled trial (RCT) at 16 academic health centers (June 2010 to July 2011). Faculty mentors of trainees who were conducting clinical/translational research ≥50% of the time were eligible. The intervention was an eight-hour, case-based curriculum focused on six mentoring competencies. The primary outcome was the change in mentors' self-reported pretest to posttest composite scores on the Mentoring Competency Assessment (MCA). Secondary outcomes included changes in the following: mentors' awareness as measured by their self-reported retrospective change in MCA scores, mentees' ratings of their mentors' competency as measured by MCA scores, and mentoring behaviors as reported by mentors and their mentees. A total of 283 mentor-mentee pairs were enrolled: 144 mentors were randomized to the intervention; 139 to the control condition. Self-reported pre-/posttest change in MCA composite scores was higher for mentors in the intervention group compared with controls (P < .001). Retrospective changes in MCA composite scores between the two groups were even greater, and extended to all six subscale scores (P < .001). More intervention-group mentors reported changes in their mentoring practices than control mentors (P < .001). Mentees working with intervention-group mentors reported larger changes in retrospective MCA pre-/posttest scores (P = .003) and more changes in their mentors' behavior (P = .002) than those paired with control mentors. This RCT demonstrates that a competency-based research mentor training program can improve mentors' skills.

An analysis of a mentoring program for baccalaureate nursing students: does the past still influence the present?

PubMed

Ketola, Jarline

2009-01-01

In September 1999, the nursing alumni association of a large university on the West Coast launched a mentoring program for nursing undergraduate students: 120 students (50% of the student body) joined the program and 60 community nurses, representing a myriad of specialties, roles, and educational levels (diploma program to doctorate), agreed to volunteer their time as mentors. The program had been carefully planned using a survey done the previous year with 95% (296) of the student body asking their opinions on program components and design. A successful 9-month pilot study was then done with 13 students matched with 13 mentors. Yet, over the next 4 years, enrollment of the students dropped to less than 1/3 the original number. Care was taken to observe the changes in enthusiasm and to address problems with the entire group: mentors and students. After 5 years, the person chairing the program needed to leave-the transition with new leadership was never successful. Part of this resulted from problems in transition but the larger issue concerned the trend that had already been identified. The aim of this paper is to discuss the problems encountered during the program from a perspective of the context within which the program was developed and the history of mentoring in the profession of nursing. The present carries the inheritance of the past. Historically, nurses and women were not expected to need mentors-"trained nurses" did not need mentoring and women were expected to have temporary jobs which they left for marriage and mothering. The paper explores the historical question: Does the history of mentoring in nursing still influence nurses today, making it challenging to establish the relationships essential to the success of mentoring?

Evaluation of a College Freshman Diversity Research Program in Astronomy

NASA Astrophysics Data System (ADS)

Tremmel, Michael J.; Garner, S. M.; Schmidt, S. J.; Wisniewski, J. P.; Agol, E.

2014-01-01

Graduate students in the astronomy department at the University of Washington began the Pre-Major in Astronomy Program (Pre-MAP) after recognizing that underrepresented students in STEM fields are not well retained after their transition from high school. Pre-MAP is a research and mentoring program that begins with a keystone seminar where they learn astronomical research techniques that they apply to research projects conducted in small groups. Students also receive one-on-one mentoring and peer support for the duration of the academic year and beyond. Successful Pre-MAP students have declared astronomy and physics majors, expanded their research projects beyond the fall quarter, presented posters at the UW Undergraduate Research Symposium, and received research fellowships and summer internships. Here we examine the success of the program in attracting underrepresented minorities and in facilitating better STEM retention and academic performance among incoming UW students. We use the University of Washington Student Database to study both the performance of Pre-MAP students and the overall UW student body over the past 8 years. We show that Pre-MAP students are generally more diverse than the overall UW population and also come in with a variety of different math backgrounds, which we show to be an important factor on STEM performance for the overall UW population. We find that that Pre-MAP students are both more academically successful and more likely to graduate in STEM fields than their UW peers, regardless of initial math placement.

Broader Impact Actualized: Collaborative Efforts that Facilitate Successful Movement of Underrepresented Students Through the Pipeline

NASA Astrophysics Data System (ADS)

Pyrtle, A. J.; Whitney, V. W.

2007-12-01

The Minorities Striving and Pursuing Higher Degrees of Success in Earth System Science Initiative \\(MS PHD'S)\\ was established by and for underrepresented minorities to facilitate increased and sustained participation in Earth system science community. Based on successful experiences of students within the SOARS program, the MS PHD'S 2003 pilot project incorporated a team mentoring structure. Student interaction with multiple mentors resulted in exposure to multiple learning perspectives and increased one-on-one, mentee/mentor interaction. Since program inception, eleven \\(11)\\ minority Earth system scientists have served as Program mentors and eighty-two (82) minority and non-minority scientists have served as Meeting Mentors to MS PHD'S student participants A total of ninety-nine \\(99)\\ undergraduate and graduate students from underrepresented populations have participated in the MS PHD'S program. Twenty-five undergraduate and graduate students participated in the MS PHD'S pilot program in 2003 as Cohort I. During FY 04-05, Cohort II consisted of twenty-seven students and twenty-three students formed Cohort III. FY 06-07, twenty-four (24) students formed Cohort IV. Of the ninety-nine \\(99)\\ student participants, fifty-four \\(54)\\ MS PHD'S student participants self-identified as African American, twenty-seven \\(27)\\ as Puerto Rican, six \\(6)\\ as Hispanic/Mexican American, eight \\(8)\\ as Native American and one \\(1)\\ each as African, Asian, Pacific Islander and Multi-Ethnic. During the five \\(5)\\ year span of MS PHD'S programming, fourteen \\(14)\\ student participants completed BS degrees, ten (10) completed MS degrees and seven \\(7\\ completed the Doctoral degrees. How did MS PHD'S establish meaningful engagement of the science community to enhance diversity within the Earth system science community? This case study reveals replicable processes and constructs to enhance the quality of meaningful collaboration and engagement. In addition, the study addresses frequently asked questions \\ (FAQ's)\\ on outreach, recruitment, engagement, retention and success of students from underrepresented populations within diversity-focused programs.

Evaluating Research Ethics Training in the Maryland Sea Grant REU Program

NASA Astrophysics Data System (ADS)

Allen, M. R.; Kumi, G. A.; Kumi, B. C.; Moser, F. C.

2016-02-01

The NSF's Research Experiences for Undergraduates (REU) program is an opportunity to cultivate responsible research practices in researchers at an early stage in their career. However, teaching responsible research conduct and science ethics in this program has been challenging because of a lack of consensus regarding which instructional methods are most effective for educating students about ethical concepts and establishing the process of ethical decision-making. Over the last 15 years, Maryland Sea Grant's REU ethics program has evolved by exploring different teaching models and looking for ways to effectively engage upper level undergraduates throughout their summer experience in ethical responsibility training. Since 2007, we have adopted a concerted experiential learning approach that includes an ethics seminar, role playing, case studies, and reflection. Currently, our summer long ethics training includes: 1) an interactive seminar; 2) a workshop with role playing and case studies; 3) 1-2 readings; and 4) a roundtable discussion with faculty mentors and their mentees to discuss researchers' real-world experiences with ethical dilemmas. Within the last 3 years, we have expanded our student learning outcomes assessments by administering pre- and post-program surveys to assess ethical skills students acquire through the program. Reevaluations administered three and six years after the REU experience will measure long term effectiveness of the training. Results from the first group of students reveal a greater awareness of ethical issues following our summer program. Students show a high level of competence about "black and white" issues (falsification, fabrication, plagiarism), but are more challenged by ethical "gray areas" such as data ownership and authorship. Results suggest many undergraduates come to research programs with basic ethics training, but benefit from our additional focus on complex ethical dilemmas.

Integration of Research Into Grade Nine-Graduate Level Curricula

NASA Astrophysics Data System (ADS)

Bonner, J.; Callicott, K.; Page, C.

2004-05-01

Research on the Kolb Learning Cycle, engineering education, and recent cognitive learning research indicates that learning occurs through knowledge application. Moreover, experts in a given discipline will differ from novices with regard to their ability to transfer their knowledge by application to new contexts. We have developed a suite of educational opportunities to bridge the gap between research and the classroom, with activities spanning the educational spectrum from high school through graduate school. One mechanism for transferring of research into undergraduate/graduate curricula is through our National Science Foundation (NSF) funded Combined Research-Curriculum Development (CRCD) project ("Environmental Informatics in Coastal Margins"). This project modifies engineering curricula to provide the nation with the next generation of engineers who can utilize the latest environmental modeling tools. The project revises/creates three undergraduate courses forming the environmental informatics (EI) track of the civil engineering curriculum and two graduate courses integrating GIS and environmental measurements. Curriculum development efforts are guided by an expert team drawn from nearby campuses and both regional and national industry, and includes an expert in assessing the pedagogical value of the curriculum and developing suitable metrics to evaluate student learning experiences. Another NSF-funded project integrating research into an undergraduate educational setting is our Research Experience for Undergraduates (REU) project ("Undergraduate Research in Biodiversity and Ecological Processes in Fluctuating Environments"). Research includes overlapping topics in environmental engineering and life sciences. The summer research experience provides students an opportunity to integrate engineering and life science technologies and to the study of ecological processes associated with biodiversity and environmental quality. Students orally present their project and submit in-depth papers. Over twenty publications/proceedings papers have been generated thus far. A third project involves our collaborations with the ITS Center ("Information Technology in Science Center for Teaching and Learning") on the A&M campus. As an investment in "project team growing", the Center is collaborating with us to collect data on implementation of an engineering science and math enhancement module in Hearne Independent School District. The specific activity involves a CRCD engineering class and an educational psychology undergraduate class. The engineering students give group presentations, where each presentation addresses a scenario that focuses on an environmental topic presented in the class. The students present the technical material to the education students who serve as a non-technical lay audience, emulating a city council, for example. The education students adapt the material for presentation to high school students, working with mentor teachers to enhance content, relevance and hands on experience while learning to apply teaching pedagogy.

A Research Mentor Training Curriculum for Clinical and Translational Researchers

PubMed Central

House, Stephanie; Spencer, Kimberly; Asquith, Pamela; Carney, Paula; Masters, Kristyn S.; McGee, Richard; Shanedling, Janet; Vecchiarelli, Stephanie; Fleming, Michael

2012-01-01

Abstract Purpose To design and evaluate a research mentor training curriculum for clinical and translational researchers. The resulting 8‐hour curriculum was implemented as part of a national mentor training trial. Method The mentor training curriculum was implemented with 144 mentors at 16 academic institutions. Facilitators of the curriculum participated in a train‐the‐trainer workshop to ensure uniform delivery. The data used for this report were collected from participants during the training sessions through reflective writing, and following the last training session via confidential survey with a 94% response rate. Results A total of 88% of respondents reported high levels of satisfaction with the training experience, and 90% noted they would recommend the training to a colleague. Participants also reported significant learning gains across six mentoring competencies as well as specific impacts of the training on their mentoring practice. Conclusions The data suggest the described research mentor training curriculum is an effective means of engaging research mentors to reflect upon and improve their research mentoring practices. The training resulted in high satisfaction, self‐reported skill gains as well as behavioral changes of clinical and translational research mentors. Given success across 16 diverse sites, this training may serve as a national model. Clin Trans Sci 2013; Volume 6: 26–33 PMID:23399086

Best practices and pearls in interdisciplinary mentoring from Building Interdisciplinary Research Careers in Women's Health Directors.

PubMed

Guise, Jeanne-Marie; Nagel, Joan D; Regensteiner, Judith G

2012-11-01

Increasingly, national programs and leaders are looking at interdisciplinary collaborations as essential to future research. Twelve years ago, the National Institutes of Health (NIH) Office of Research on Women's Health (ORWH) developed and implemented the Building Interdisciplinary Research Careers in Women's Health (BIRCWH) K12 program to focus on interdisciplinary mentored career development for junior faculty in women's health research. We applied a mixed-methods approach using an electronic survey and in-person presentations and discussions to understand best practices and lessons learned for interdisciplinary mentoring across BIRCWH K12 program leaders. We received responses from all 29 active BIRCWH programs. Factors associated with success included ensuring sufficient protected time for regular (weekly or biweekly) mentoring; mentors promoting the research independence of the Scholar; a team mentoring approach, including career as well as content mentors; and explicit and clear expectations outlined between the Scholar and mentor. The majority of programs conduct formal evaluations of mentorship, and 79% of programs offer training in mentorship for either Scholars, mentors, or both. This article presents program leaders' best practices, challenges, and lessons learned from mentoring junior faculty who are conducting women's health research, whether basic, clinical, behavioral, translational, or health services research, using an interdisciplinary mentoring approach.

Best Practices and Pearls in Interdisciplinary Mentoring from Building Interdisciplinary Research Careers in Women's Health Directors

PubMed Central

Nagel, Joan D.; Regensteiner, Judith G.

2012-01-01

Abstract Background Increasingly, national programs and leaders are looking at interdisciplinary collaborations as essential to future research. Twelve years ago, the National Institutes of Health (NIH) Office of Research on Women's Health (ORWH) developed and implemented the Building Interdisciplinary Research Careers in Women's Health (BIRCWH) K12 program to focus on interdisciplinary mentored career development for junior faculty in women's health research. Methods We applied a mixed-methods approach using an electronic survey and in-person presentations and discussions to understand best practices and lessons learned for interdisciplinary mentoring across BIRCWH K12 program leaders. Results and Conclusions We received responses from all 29 active BIRCWH programs. Factors associated with success included ensuring sufficient protected time for regular (weekly or biweekly) mentoring; mentors promoting the research independence of the Scholar; a team mentoring approach, including career as well as content mentors; and explicit and clear expectations outlined between the Scholar and mentor. The majority of programs conduct formal evaluations of mentorship, and 79% of programs offer training in mentorship for either Scholars, mentors, or both. This article presents program leaders' best practices, challenges, and lessons learned from mentoring junior faculty who are conducting women's health research, whether basic, clinical, behavioral, translational, or health services research, using an interdisciplinary mentoring approach. PMID:22994986

Intentional Excellence in the Baldwin Wallace University Neuroscience Program

PubMed Central

Morris, Jacqueline K.; Peppers, Kieth; Mickley, G. Andrew

2015-01-01

The Society for Neuroscience recognized Baldwin Wallace University’s (BWU) undergraduate Neuroscience program as their Program of the Year for 2012. This award acknowledged the “accomplishments of a neuroscience department or program for excellence in educating neuroscientists and providing innovative models to which other programs can aspire.” The Neuroscience program grew out of students interested in studying the biological basis of behavior. BWU’s neuroscience major is research-intensive, and all students are required to produce an empirically-based senior thesis. This requirement challenges program resources, and the demand for faculty attention is high. Thus, we developed an intentional 3-step peer mentoring system that encourages our students to collaborate with and learn from, not only faculty, but each other. Peer mentoring occurs in the curriculum, faculty research labs, and as students complete their senior theses. As the program has grown with over 80 current majors, we have developed a new Neuroscience Methods course to train students on the safety, ethics, and practice of research in the neuroscience laboratory space. Students in this course leave with the skills and knowledge to assist senior level students with their theses and to begin the process of developing their own projects in the laboratory. Further, our students indicate that their “peer mentorship was excellent,” “helped them gain confidence,” and “allowed them to be more successful in their research.” PMID:26240522

Effects of Mentoring Speed Dating as an Innovative Matching Tool in Undergraduate Medical Education: A Mixed Methods Study

PubMed Central

Guse, Jennifer; Schweigert, Eva; Kulms, Gerhild; Heinen, Ines; Martens, Claudia; Guse, Andreas H.

2016-01-01

Objectives Choosing the right mentor is crucial for effective mentorship. Yet, many medical students have difficulties finding a suitable mentor. Thus we developed mentoring speed dating (MSD) as a promising matching tool to connect students and faculty mentors successfully. The purpose of this study was to explore mentees’ and mentors’ experience with MSD and investigate the impact of MSD on the perceived mentorship quality and continuance of the mentoring relationship. Methods The authors completed a mixed methods study at the University Medical Center Hamburg-Eppendorf, Germany, between June 2011 and March 2014. They conducted four focus groups with mentees and mentors who participated in a mentoring speed dating event and analyzed transcripts using conventional content analysis with inductive categorizing. In addition, three mentoring cohorts (two matched via MSD, one matched via conventional online profiles) were surveyed on mentorship satisfaction and the 1-year continuance of their mentorship was monitored. Fifteen mentees and fifteen mentors participated in the focus groups. The authors identified several themes such as short and long term benefits of MSD and fulfillment of expectations. Benefits included finding out about the personal connection, matching expectations, providing an efficient overview of candidates. The survey was completed by 93 students (n = 29 without MSD; n = 64 with MSD). Independent t-tests and multivariate analysis of variance were used to analyze the impact of MSD on student’s mentorship satisfaction. Results There were significant differences in responses to the items “Commitment of mentor” (p = .019) and “Constructive feedback” (p = .038) among the students who attended MSD and the students without MSD. After one year far more mentoring relationships existed among those mentees who participated in MSD in comparison to the “no MSD group”. Conclusion MSD is a valuable matching tool with beneficial effects on the mentorship quality. It enhances essential factors in the mentoring relationship such as commitment and satisfaction. PMID:26859845

A Mentoring Toolkit: Tips and Tools for Mentoring Early-Career Researchers

NASA Astrophysics Data System (ADS)

Flint, Kathleen

2010-01-01

Effective mentoring is a critical component in the training of early-career researchers, cultivating more independent, productive and satisfied scientists. For example, mentoring has been shown by the 2005 Sigma Xi National Postdoc Survey to be a key indicator for a successful postdoctoral outcome. Mentoring takes many forms and can include support for maximizing research skills and productivity as well as assistance in preparing for a chosen career path. Yet, because there is no "one-size-fits-all” approach, mentoring can be an activity that is hard to define. In this presentation, a series of tips and tools will be offered to aid mentors in developing a plan for their mentoring activities. This will include: suggestions for how to get started; opportunities for mentoring activities within the research group, within the institution, and outside the institution; tools for communicating and assessing professional milestones; and resources for fostering the professional and career development of mentees. Special considerations will also be presented for mentoring international scholars and women. These strategies will be helpful to the PI responding to the new NSF mentoring plan requirement for postdocs as well as to the student, postdoc, researcher or professor overseeing the research and training of others.

Successes, Challenges and Lessons Learned for Recruiting, Engaging and Preparing a Diverse Student Population for 21st Century Careers in Ocean Sciences.

NASA Astrophysics Data System (ADS)

Clarkston, B. E.; Garza, C.

2015-12-01

Diversity within the Ocean Sciences workforce is still underperforming relative to other scientific disciplines, a problem that will be only be solved by recruiting, engaging and retaining a more diverse student population. The Monterey Bay Regional Ocean Science Research Experiences for Undergraduates program is housed at California State University, Monterey Bay (CSUMB), an HSI with strong connections to multiple regional community colleges and other Predominantly Undergraduate Institutions (PUIs) in the CSU system. From this unique position, 11 sophomore and junior-level undergraduate students are recruited per year from academic institutions where research opportunities in STEM are limited and from groups historically underrepresented in the Ocean Sciences, including women, underrepresented minorities, persons with disabilities, and veterans. During the program, students engage in a 10-week original research project guided by a faculty research mentor in one of four themes: Oceanography, Marine Biology and Ecology, Ocean Engineering, and Marine Geology. In addition to research, students engage in rigorous weekly professional development workshops in which they practice critical thinking, ethical decision-making, peer review, writing and oral communication skills. These workshops include tangible products such as an NSF-style proposal paper, Statement of Purpose and CV modelled for the SACNAS Travel Award Application, research abstract, scientific report and oral presentation. To help retain students in Ocean Sciences, students build community during the REU by living together in the CSUMB dormitories; post-REU, students stay connected through an online facebook group, LinkedIn page and group webinars. To date, the REU has supported 22 students in two cohorts (2014, 2015) and here we present successes, challenges and lessons learned for a program designed to prepare students for 21st century Ocean Science careers.