Using Rain Gardens to Promote Service Learning and Climate Science Education with Urban Youth

ERIC Educational Resources Information Center

Kinsey, Sharon B.; Haberland, Michael W.

2012-01-01

The Jersey Roots, Global Reach 4-H Climate Science Program conducted in Camden, New Jersey introduces middle school students to the evidence, impacts, and potential solutions to climate change. For their service learning project, students installed two rain gardens at the school. Rain gardens are shallow landscaped depressions in the soil that can…

Inequalities in School Climate in California

ERIC Educational Resources Information Center

Jain, Sonia; Cohen, Alison K.; Huang, Kevin; Hanson, Thomas L.; Austin, Gregory

2015-01-01

Purpose: School climate, or the physical and social conditions of the learning environment, has implications for academic achievement. The paper aims to discuss this issue. Design/Methodology/Approach: The authors examine how school climate varies by school-level characteristics in California using administrative data and the California School…

The Resilient Schools Consortium (RiSC): Linking Climate Literacy, Resilience Thinking and Service Learning

NASA Astrophysics Data System (ADS)

Branco, B. F.; Fano, E.; Adams, J.; Shon, L.; Zimmermann, A.; Sioux, H.; Gillis, A.

2017-12-01

Public schools and youth voices are largely absent from climate resilience planning and projects in New York City. Additionally, research shows that U.S. science teachers' understanding of climate science is lacking, hence there is not only an urgent need to train and support teachers on both the science and pedagogy of climate change, but to link climate literacy, resilience thinking and service learning in K-12 education. However, research on participation of students and teachers in authentic, civic-oriented experiences points to increased engagement and learning outcomes in science. The Resilient Schools Consortium (RiSC) Project will address all these needs through an afterschool program in six coastal Brooklyn schools that engages teachers and urban youth (grades 6-12), in school and community climate resilience assessment and project design. The RiSC climate curriculum, co-designed by New York City school teachers with Brooklyn College, the National Wildlife Federation, New York Sea Grant and the Science and Resilience Institute at Jamaica Bay, will begin by helping students to understand the difference between climate and weather. The curriculum makes extensive use of existing resources such as NOAA's Digital Coast and the Coastal Resilience Mapping Portal. Through a series of four modules over two school years, the six RiSC teams will; 1. explore and understand the human-induced drivers of climate change and, particularly, the significant climate and extreme weather related risks to their schools and surrounding communities; 2. complete a climate vulnerability assessment within the school and the community that is aligned to OneNYC - the city's resilience planning document; 3. design and execute a school-based resilience project; and 4. propose resilience guidelines for NYC Department of Education schools. At the end of each school year, the six RiSC teams will convene a RiSC summit with city officials and resilience practitioners to share ideas and experiences.

Best Practices: Creating an LGBT-Inclusive School Climate. A Teaching Tolerance Guide for School Leaders

ERIC Educational Resources Information Center

Southern Poverty Law Center (NJ1), 2013

2013-01-01

Schools are places of learning and also miniature societies. The climate of a school has a direct impact on both how well students learn and how well they interact with their peers. Teachers and administrators work hard to make their classrooms welcoming places where each student feels included. But despite these efforts, students who are--or who…

CEC's Policy on Safe and Positive School Climate

ERIC Educational Resources Information Center

Council for Exceptional Children (NJ3), 2008

2008-01-01

The Council for Exceptional Children (CEC) recognizes the important impact a safe and positive school climate has on the personal development and academic achievement of all students. Research has shown that schools implementing supportive and positive school climate strategies are more successful in creating environments conducive to learning. As…

Climate for Learning: A Symposium. Creating a Climate for Learning, and the Humanizing Process. The Principal and School Discipline. Curriculum Bulletin Vol. XXXII, No. 341.

ERIC Educational Resources Information Center

Johnson, Simon O.; Chaky, June

This publication contains two articles focusing on creating a climate for learning. In "Creating a Climate for Learning, and the Humanizing Process," Simon O. Johnson offers practical suggestions for creating a humanistic learning environment. The author begins by defining the basic concepts--humanism, affective education, affective situation,…

A Study of Teacher Formative Influence upon and Student Experience of Social-Emotional Learning Climate in Secondary School Music Settings

ERIC Educational Resources Information Center

Carlisle, Katie

2013-01-01

Conceiving the construct "social-emotional learning climate" as an embodiment of Illeris' contemporary learning theory, this paper serves dual purposes. First, it examines recent music education literature, which identifies issues of competence and institutionalised pedagogic practice in secondary school music settings that result in…

Transforming School Climate and Learning: Beyond Bullying and Compliance

ERIC Educational Resources Information Center

Preble, Bill; Gordon, Rick

2011-01-01

Most educators agree that children learn better in an honoring and respectful culture. They also know that top-down imposed change rarely sticks. In "Transforming School Climate and Learning", Bill Preble and Rick Gordon show how to accomplish lasting results by engaging both teachers and students in the five-step SafeMeasures[TM] process, a…

The social construction of communication climate: An analysis of at-risk students in alternative high school

NASA Astrophysics Data System (ADS)

Souza, Tasha Jean

1998-12-01

Alternative high schools affect more potential high school dropouts than any other school or program and are designed to meet the needs of students who have had difficulty in conventional schools. This study examines the communication climate and constructions of caring in an alternative school for at-risk students by using a qualitative analysis grounded in the theoretical perspective of social constructionism. Observations and interviews were conducted over a six month time period. The first two chapters provide a review of literature and a detailed account of the methods used to conduct the study. Chapter Three describes the socially constructed nature of the school and the participants and the dialectical tensions of communication climate revealed from the analysis. The six dialectical tensions of communication climate are: (1) freedom/restraint, (2) disengagement/engagement, (3) personal communication/impersonal communication, (4) disconfirmation/confirmation, (5) equality/inequality, and (6) ambiguity/clarity. Although the school climate is comprised of each of these tensions, the data suggest that the interaction within the majority of classes created some common characteristics of the general communication climate at the school and can be characterized as one of freedom, disengagement, personal communication, disconfirmation, equality, and ambiguity. Chapter Four describes how caring was constructed and communicated. Although some students perceived some teachers as caring about students and about student learning, half of the students interviewed thought they were not learning or not learning much. Finally, Chapter Five provides a summary of the findings and a discussion of the results. The results of this study contribute to an understanding of the social construction of communication climate and caring in general, and within an alternative school for at-risk students, in specific. The results contribute to the understanding of the complexity of the jointly produced nature of communication climate and reveal the potential effect of communication climate and constructions of caring on teachers' instructional methods, teacher and student interaction, and student learning. Such information can aid pragmatically in the development or modification of programs designed to serve at-risk students, and theoretically in the understanding of the co-constructed nature of communication climate.

High School Teachers and Students Knowledge and Views about Climate Change, a Nice NASA Example

NASA Astrophysics Data System (ADS)

Bleicher, R. E.; Lambert, J. L.

2014-12-01

One factor for some Americans being confused about climate change is their lack of understanding its underlying science concepts (Somerville & Hassol, 2011). In spite of this, climate change has been under-emphasized in school curricula (Bardsley & Bardsley, 2007). This is an important challenge for science educators, especially given the increasing public awareness of climate change impacts in their everyday lives (NCADAC, 2013).One way to address this challenge is to involve teachers in professional learning projects with the expectation that their enhanced content and pedagogical knowledge about climate change will transfer into more effective instruction resulting in increased student learning. For teacher educators, this translates into providing vibrant professional learning activities that energize and engage science teachers to develop interesting lessons that stimulate their students to learn important science concepts and develop positive attitudes to science. This study examined content knowledge and views about climate change of 33 high school science teachers and their1050 students who participated in lessons developed in a NASA-funded professional learning project. The teachers participated in a seven-day climate change summer institute and received in-classroom follow-up support throughout the school year. Teacher data sources included a background survey (undergraduate majors, number of years teaching science), science teaching self-efficacy (STEBI-A) scores, Climate Science Inventory of Knowledge (CSIK), and Six-America's Views on Climate Change. Student data included journal entries, and pre-post measures using the CSIK and Six-Americas instruments. T-tests and ANOVA showed that both students and their teachers increased in climate science knowledge. Teachers' views about climate change were more aligned to climate scientists' views. Teachers also increased in their science teaching self-efficacy and those with higher self-efficacy demonstrated higher climate change science knowledge. In addition to these data, the professional learning model and examples of the hands-on activities utilized by teachers will be shared in this presentation. The Logic Model is included below to provide an overall picture of the project.

The Appropriateness of a California Student and Staff Survey for Measuring Middle School Climate. REL 2014-039

ERIC Educational Resources Information Center

Hanson, Thomas; Voight, Adam

2014-01-01

A growing number of states and school districts use school climate assessments in progress reporting systems and are interested in incorporating these assessments into accountability systems. This analysis of response data from middle school students and teachers on the California School Climate, Health, and Learning Survey examines the…

Youth Climate Summits: Empowering & Engaging Youth to Lead on Climate Change

NASA Astrophysics Data System (ADS)

Kretser, J.

2017-12-01

The Wild Center's Youth Climate Summits is a program that engages youth in climate literacy from knowledge and understanding to developing action in their schools and communities. Each Youth Climate Summit is a one to three day event that brings students and teachers together to learn about climate change science, impacts and solutions at a global and local level. Through speakers, workshops and activities, the Summit culminates in a student-driven Climate Action Plan that can be brought back to schools and communities. The summits have been found to be powerful vehicles for inspiration, learning, community engagement and youth leadership development. Climate literacy with a focus on local climate impacts and solutions is a key component of the Youth Climate Summit. The project-based learning surrounding the creation of a unique, student driven, sustainability and Climate Action Plan promotes leadership skills applicable and the tools necessary for a 21st Century workforce. Student driven projects range from school gardens and school energy audits to working with NYS officials to commit to going 100% renewable electricty at the three state-owned downhill ski facilities. The summit model has been scaled and replicated in other communities in New York State, Vermont, Ohio, Michigan and Washington states as well as internationally in Finland, Germany and Sri Lanka.

A Cross-Grade Comparison to Examine the Context Effect on the Relationships among Family Resources, School Climate, Learning Participation, Science Attitude, and Science Achievement Based on TIMSS 2003 in Taiwan

ERIC Educational Resources Information Center

Chen, Shin-Feng; Lin, Chien-Yu; Wang, Jing-Ru; Lin, Sheau-Wen; Kao, Huey-Lien

2012-01-01

This study aimed to examine whether the relationships among family resources, school climate, learning participation, science attitude, and science achievement are different between primary school students and junior high school students within one educational system. The subjects included 4,181 Grade 4 students and 5,074 Grade 8 students who…

The School Climate Improvement "Process": Essential Elements. School Climate Brief, Number 4

ERIC Educational Resources Information Center

National School Climate Center, 2012

2012-01-01

Student learning and development are a function of both individual and systemic factors. Individual factors include students' motivation as well as their intellectual and social abilities. Systemic factors include teacher quality, administrative leadership, community engagement, and learning environments. The increasing numbers of children living…

Preventing Academic Disengagement through a Middle School-Based Social and Emotional Learning Program

ERIC Educational Resources Information Center

McBride, Amanda Moore; Chung, Saras; Robertson, Anne

2016-01-01

Behaviors that warrant school discipline (e.g., fighting, victimizing peers) is detrimental to school climate and the learning process. This study examines the effectiveness of preventing school disciplinary incidents in middle school through an experiential, social and emotional learning (SEL) program. A community youth development organization,…

Teachers' Perceptions of Principals' Motivating Language and Public School Climates in Kuwait

ERIC Educational Resources Information Center

Alqahtani, Abdulmuhsen Ayedh

2015-01-01

Research has shown that the overall climate in a school can encourage or deter learning. One significant factor promoting a positive climate is the use of motivational language by school leaders. This article presents empirical evidence of teachers' perceptions of motivational language used by school principals and the effects of this language on…

Game Based Learning as a Means to Teach Climate Literacy in a High School Environment

NASA Astrophysics Data System (ADS)

Fung, M. K.; Tedesco, L.; Katz, M. E.

2013-12-01

As part of RPI's GK-12 graduate fellowship program (which involves graduate STEM fellows in K-12 education) a climate change board game activity was developed and implemented at inner city Troy High School in Troy, New York. The goal was to engage and teach two classes of the Earth Science General Repeat (GR) tenth grade students about climate change through a game-based leaning module. Students placed in the GR course had previously failed Earth Science, and had never passed a general science class in high school. In the past, these students have responded positively to hands-on activities. Therefore, an interactive board game activity was created to teach students about climate, explore how humans impact our environment, and address the future of climate change. The students are presented with a draft version of the game, created by the graduate fellow, and are asked to redesign the game for their peers in the other GR class. The students' version of the game is required to include certain aspects of the original game, for example, the climate change Trivia and Roadblock cards, but the design, addition of rules and overall layout are left to the students. The game-based learning technique allows the students to learn through a storyline, compete against each other, and challenge themselves to perfect their learning and understanding of climate change. The climate change board game activity also incorporates our cascade learning model, in which the graduate fellow designs the activity, works with a high school teacher, and implements the game with high school students. In addition, the activity emphasizes peer-to-peer learning, allowing each classroom to design the game for a different group of students. This allows the students to take leadership and gives them a sense of accomplishment with the completed board game. The nature of a board game also creates a dynamic competitive atmosphere, in which the students want to learn and understand the material to succeed in the overall game. Although this board game activity was designed for high school students, it could easily be adapted for all K-12 levels as an interactive, informative and successful way of teaching students about climate literacy.

Predicting High School Student Use of Learning Strategies: The Role of Preferred Learning Styles and Classroom Climate

ERIC Educational Resources Information Center

Cheema, Jehanzeb; Kitsantas, Anastasia

2016-01-01

This study investigated the predictiveness of preferred learning styles (competitive and cooperative) and classroom climate (teacher support and disciplinary climate) on learning strategy use in mathematics. The student survey part of the Programme for International Student Assessment 2003 comprising of 4633 US observations was used in a weighted…

The Prediction of Teachers' Perceptions of School Climate from Their School's Utilization of Positive Behavior Interventions and Supports

ERIC Educational Resources Information Center

Quackenbush, Rebecca J.

2017-01-01

School climate is an aspect of school life that has been examined closely in recent literature as it related to student interactions, behavior, and student achievement. Problem behaviors can affect students' academic learning as well as teachers' instructional time. Research has emphasized how a healthy school climate can yield positive effects on…

Commentaries on the National School Climate Standards. Benchmarks to Promote Effective Teaching, Learning and Comprehensive School Improvement. School Climate Brief, Number 2

ERIC Educational Resources Information Center

National School Climate Center, 2010

2010-01-01

The majority of Americans have a shared vision that K-12 education needs to support children's ability to love, work and participate effectively in a democratic society. The National School Climate Center, a growing number of State Departments of Education and recently, the United States Department of Education believe that when school communities…

Principals' Performance in Promoting Learning Climate in Ebonyi State Secondary Schools

ERIC Educational Resources Information Center

Egwu, Sarah Oben

2015-01-01

This study was conducted to determine principals' performance in promoting learning climate in Ebonyi State secondary schools. A sample of 630 teachers completed a 12-item questionnaire designed for the study. Out of 630 copies of the questionnaire distributed, 606 copies representing about 96.2% return rate were properly completed and returned.…

Toward a Knowledge Base for School Climate in Cyprus's Schools

ERIC Educational Resources Information Center

Pashiardis, Georgia

2008-01-01

Purpose: The main purpose of this study was to explore and analyze secondary school students' (8th grade) perceptions about school climate in three areas, namely: the physical environment of the school, the social environment and the learning environment Design/methodology/approach: A questionnaire, which was designed and pilot-tested around the…

School Ground as Environmental Learning Resources: Teachers' and Pupils' Perspectives on Its Potentials, Uses and Accessibility

ERIC Educational Resources Information Center

Atmodiwirjo, Paramita

2013-01-01

This paper addresses the role of school ground as outdoor learning resources for environmental education. The opportunities to use school ground are particularly prominent in tropical climate, where the weather permits plenty of outdoor learning activities. A study in primary schools in Jakarta explored the relationship between the spatial aspects…

Educational Faculty Perceptions of the Learning Climate in a Juvenile Justice Residential Facility

ERIC Educational Resources Information Center

Cox, Carolyn; Visker, Joseph; Hartman, Ashley

2011-01-01

The majority of educational faculty from a juvenile justice residential detention facility in rural Northeast Missouri who participated in a learning climate survey of their school seemed to agree that the environment for staff and students was generally physically safe and emotionally supportive; key factors for a positive learning climate. By…

School Climate: Applied to Integration and Access of Special Education Children in Full Learning Environments. A Ho'okoho Module.

ERIC Educational Resources Information Center

Levy, Irena; Yoneshige, Dora

The module is intended to help educators understand the components of school climate and its influence on the integration of students with handicaps. Three competencies are addressed: (1) to develop an understanding of the concept of school climate, identify its components and analyze its relationship to educational goals; (2) to develop an…

Bringing a Realistic Global Climate Modeling Experience to a Broader Audience

NASA Astrophysics Data System (ADS)

Sohl, L. E.; Chandler, M. A.; Zhou, J.

2010-12-01

EdGCM, the Educational Global Climate Model, was developed with the goal of helping students learn about climate change and climate modeling by giving them the ability to run a genuine NASA global climate model (GCM) on a desktop computer. Since EdGCM was first publicly released in January 2005, tens of thousands of users on seven continents have downloaded the software. EdGCM has been utilized by climate science educators from middle school through graduate school levels, and on occasion even by researchers who otherwise do not have ready access to climate model at national labs in the U.S. and elsewhere. The EdGCM software is designed to walk users through the same process a climate scientist would use in designing and running simulations, and analyzing and visualizing GCM output. Although the current interface design gives users a clear view of some of the complexities involved in using a climate model, it can be daunting for users whose main focus is on climate science rather than modeling per se. As part of the work funded by NASA’s Global Climate Change Education (GCCE) program, we will begin modifications to the user interface that will improve the accessibility of EdGCM to a wider array of users, especially at the middle school and high school levels, by: 1) Developing an automated approach (a “wizard”) to simplify the user experience in setting up new climate simulations; 2) Produce a catalog of “rediscovery experiments” that allow users to reproduce published climate model results, and in some cases compare model projections to real world data; and 3) Enhance distance learning and online learning opportunities through the development of a web-based interface. The prototypes for these modifications will then be presented to educators belonging to an EdGCM Users Group for feedback, so that we can further refine the EdGCM software, and thus deliver the tools and materials educators want and need across a wider range of learning environments.

Classroom Management, School Staff Relations, School Climate, and Academic Achievement: Testing A Model with Urban High Schools

ERIC Educational Resources Information Center

Back, Lindsey T.; Polk, Elizabeth; Keys, Christopher B.; McMahon, Susan D.

2016-01-01

Urban learning environments pose distinct instructional challenges for teachers and administrators, and can lead to lower achievement compared to suburban or rural schools. Today's educational climate increasingly emphasises a need for positive academic outcomes, often measured by standardised tests, on which student educational opportunities,…

Taking a Strengths-Based Focus Improves School Climate

ERIC Educational Resources Information Center

Tschannen-Moran, Megan; Tschannen-Moran, Bob

2011-01-01

The purpose of this study was to learn whether focusing on strengths through appreciative inquiry would be related to measurable changes in school climate and trust within a small urban school district. The district studied was a beleaguered, underperforming school district in the Midwest Rust Belt. Through an appreciative inquiry initiative, the…

The role of principal in optimizing school climate in primary schools

NASA Astrophysics Data System (ADS)

Murtedjo; Suharningsih

2018-01-01

This article was written based on the occurrence of elementary school changes that never counted because of the low quality, became the school of choice of the surrounding community with the many national achievements ever achieved. This article is based on research data conducted in primary schools. In this paper focused on the role of school principals in an effort to optimize school climate. To describe the principal’s role in optimizing school climate using a qualitative approach to the design of Multi-Site Study. The appointment of the informant was done by snowball technique. Data collection through in-depth interviews, participant observation, and documentation. Data credibility checking uses triangulation techniques, member checks, and peer discussions. Auditability is performed by the auditor. The collected data is analyzed by site analysis and cross-site analysis. The result of the research shows that the principal in optimizing the conducive school climate by creating the physical condition of the school and the socio-emotional condition is pleasant, so that the teachers in implementing the learning process become passionate, happy learners which ultimately improve their learning achievement and can improve the school quality.

Appraisal of the dental school learning environment: the students' view.

PubMed

Henzi, David; Davis, Elaine; Jasinevicius, Roma; Hendricson, William; Cintron, Laura; Isaacs, Marcia

2005-10-01

The majority of studies examining dental school curriculum have addressed organization, structure, and content issues from the perspectives of administrators, faculty, practitioners/alumni, and professional organizations. However, few studies have focused on students' opinions of dental school. The purpose of this study was to determine students' perceptions of the learning environment, intellectual climate, and teacher-student relationships in dental school. This report describes how the "dental version" of the Medical Student Learning Environment Survey (MSLES) was used to identify students' perceptions of their dental education. Freshman and junior dental students' perceptions were measured with the Dental Student Learning Environment Survey (DSLES), which evaluates learning environment, intellectual climate, and relationships among students and teachers in seven areas: flexibility, student-to-student interaction, emotional climate, supportiveness, meaningful experience, organization, and breadth of interest. The DSLES was mailed to twenty-three dental schools in North America with eighteen of the schools distributing the inventory. A total of 619 dental students responded. Results were differentiated between freshman and junior dental students. Both freshman and junior students provided the highest (most positive) ratings for the DSLES subscales of "breadth of interest" (interest in dentistry and outside interests are encouraged) and "meaningful learning experience" (significance of courses to dentistry). Freshman students provided the lowest (least positive) ratings for "emotional climate" (students' responses to the way their courses were conducted and stress levels), and junior students provided the least positive ratings for "faculty supportiveness" (extent of faculty support and encouragement provided to students). The DSLES identified students' perceptions of their educational experience and localized areas for improvement. By addressing these areas of concern, faculty can increase student satisfaction with their dental education.

Schools in a Learning Society: New Purposes and Modalities of Learning in Late Modern Society.

ERIC Educational Resources Information Center

Strain, Michael

2000-01-01

Examines limitations inherent in the learning society debate, highlighting public schooling's role; individualization and fears of uselessness in a modernized, informationalized world; and effects of globalization on learning. A climate of risk and consumerism requires reflexive construction of a "self" on a lifelong learning journey.…

Goals and Values in School: A Model Developed for Describing, Evaluating and Changing the Social Climate of Learning Environments

ERIC Educational Resources Information Center

Allodi, Mara Westling

2010-01-01

This paper defines a broad model of the psychosocial climate in educational settings. The model was developed from a general theory of learning environments, on a theory of human values and on empirical studies of children's evaluations of their schools. The contents of the model are creativity, stimulation, achievement, self-efficacy, creativity,…

Assessing Climate Misconceptions of Middle School Learners and Teachers

NASA Astrophysics Data System (ADS)

Sahagian, D. L.; Anastasio, D. J.; Bodzin, A.; Cirucci, L.; Bressler, D.; Dempsey, C.; Peffer, T.

2012-12-01

Middle School students and their teachers are among the many populations in the U.S. with misconceptions regarding the science or even reality of climate change. Teaching climate change science in schools is of paramount importance since all school-age children will eventually assume responsibility for the management and policy-making decisions of our planet. The recently published Framework for K-12 Science Education (National Research Council, 2012) emphasizes the importance of students understanding global climate change and its impacts on society. A preliminary assessment of over a thousand urban middles school students found the following from pretests prior to a climate literacy curriculum: - Do not understand that climate occurs on a time scale of decades (most think it is weeks or months) -Do not know the main atmospheric contributors to global warming -Do not understand the role of greenhouse gases as major contributors to increasing Earth's surface temperature -Do not understand the role of water vapor to trap heat and add to the greenhouse effect -Cannot identify some of the human activities that increase the amount of CO2 -Cannot identify sources of carbon emissions produced by US citizens -Cannot describe human activities that are causing the long-term increase of carbon -dioxide levels over the last 100 years -Cannot describe carbon reduction strategies that are feasible for lowering the levels of carbon dioxide in the atmosphere To address the lack of a well-designed middle school science climate change curriculum that can be used to help teachers promote the teaching and learning of important climate change concepts, we developed a 20-day Environmental Literacy and Inquiry (ELI): Climate Change curriculum in partnership with a local school district. Comprehension increased significantly from pre- to post-test after enactment of the ELI curriculum in the classrooms. This work is part of an ongoing systemic curriculum reform initiative to promote (1) environmental literacy and inquiry and (2) foster the development of geospatial thinking and reasoning using geospatial technologies as an essential component of the middle school science curriculum. The curriculum is designed to align instructional materials and assessments with learning goals. The following frameworks were used to provide guidelines for the climate change science content in addition to the science inquiry upon which schools must focus: Climate Literacy: The Essential Principles of Climate Sciences (U.S. Global Change Research Program, 2009) and the AAAS Project 2061 Communicating and Learning About Global Climate Change (AAAS, 2007). The curriculum is a coherent sequence of learning activities that include climate change investigations with Google Earth, Web-based interactivities that include an online carbon emissions calculator and a Web-based geologic time-line, and inquiry-based ("hands-on") laboratories. The climate change science topics include the atmosphere, Earth system energy balance, weather, greenhouse gases, paleoclimatology, and "humans and climate". It is hoped that with a solid foundation of climate science in the classroom, middle school learners will be in a position to evaluate new scientific discoveries, emerging data sets, and reasonably assess information and misinformation by which they are surrounded on a daily basis.

Creating a Positive School Climate at the Junior High Level.

ERIC Educational Resources Information Center

Licata, Vincent F.

One of the seven correlates of an effective school, as identified by the Effective Schools Research, is a positive school climate: a positive attitude on the part of the entire staff and student body exhibited through overt behavior that creates a warm, orderly learning environment. Development of such an environment depends upon: (1) strong…

Examining the Relationship between Classroom Climate and Student Achievement of Middle School Students

ERIC Educational Resources Information Center

Barksdale, Christopher J.

2017-01-01

The purpose of this sequential mixed method study was to examine the relationship between classroom climate and student achievement of middle school students. This study included a review of data collected from the Learning Environment Inventory from a purposeful sample of middle school students from a large suburban school district. A purposeful…

Learning to Switch Gears: In New Haven, a Restorative Approach to School Discipline

ERIC Educational Resources Information Center

Dubin, Jennifer

2016-01-01

Together, a school district and a local union are working to ensure that educators are trained in restorative practices in order to improve school climates and keep students in school and learning. This article describes how, in recent years, administrators and teachers have shifted from traditional school punishments, such as suspension, to…

Inspiring Inquiry: Scientists, science teachers, and GK-12 students learning climate science together

NASA Astrophysics Data System (ADS)

Stwertka, C.; Blonquist, J.; Feener, D.

2010-12-01

A major communication gap exists between climate scientists, educators, and society. As a result, findings from climate research, potential implications of climate change, and possible mitigation strategies are not fully understood and accepted outside of the climate science community. A good way to begin bridging the gap is to teach climate science to students in public schools. TGLL (Think Globally, Learn Locally) is an NSF GK-12 program based at the University of Utah, which partners graduate students in the biological, geological and atmospheric sciences with middle and high school teachers in the Salt Lake City School District to improve the communication skills of Fellows and enhance inquiry-based science teaching and learning in the classroom. Each TGLL Fellow works in the same classroom(s) throughout the year, developing his or her scientific communication skills while providing teachers with content knowledge, resources, classroom support, and enhancing the experience of students such that science becomes an interesting and accessible tool for acquiring knowledge. The TGLL Fellows work closely as a group to develop inquiry-based teaching modules (a series of lessons) and a field trip that involve students in doing authentic science. Lessons are designed to apply national and Utah core curriculum concepts to broader scientific issues such as habitat alteration, pollution and disturbance, invasive species, and infectious disease, with the focus of the 2010-2011 school year being climate change. The TGLL Global Climate Change module contains lesson plans on climate temporal and spatial scales, temperature variation, energy balance, the carbon cycle, the greenhouse effect, climate feedback loops, anthropogenic climate change indicators, climate change consequences and impacts, and actions students can take to reduce greenhouse gas emissions. The capstone experience for the module is a “Backyard Climate Change” field trip to a local pristine canyon. Students will map and measure the carbon dioxide flux of various ecosystem components, measure the albedo of various surfaces, learn about micro-scale climates and atmospheric pollen transport, measure water and air quality, and observe habitat alteration. Through the module and fieldtrip, TGLL Fellows aim to build student and teacher knowledge about climate change and create lasting projects that are adapted into the core science curriculum.

A multicenter study: how do medical students perceive clinical learning climate?

PubMed

Yilmaz, Nilufer Demiral; Velipasaoglu, Serpil; Ozan, Sema; Basusta, Bilge Uzun; Midik, Ozlem; Mamakli, Sumer; Karaoglu, Nazan; Tengiz, Funda; Durak, Halil İbrahim; Sahin, Hatice

2016-01-01

The relationship between students and instructors is of crucial importance for the development of a positive learning climate. Learning climate is a multifaceted concept, and its measurement is a complicated process. The aim of this cross-sectional study was to determine medical students' perceptions about the clinical learning climate and to investigate differences in their perceptions in terms of various variables. Medical students studying at six medical schools in Turkey were recruited for the study. All students who completed clinical rotations, which lasted for 3 or more weeks, were included in the study (n=3,097). Data were collected using the Clinical Learning Climate Scale (CLCS). The CLCS (36 items) includes three subscales: clinical environment, emotion, and motivation. Each item is scored using a 5-point Likert scale (1: strongly disagree to 5: strongly agree). The response rate for the trainees was 69.67% (n=1,519), and for the interns it was 51.47% (n=917). The mean total CLCS score was 117.20±17.19. The rotation during which the clinical learning climate was perceived most favorably was the Physical Therapy and Rehabilitation rotation (mean score: 137.77). The most negatively perceived rotation was the General Internal Medicine rotation (mean score: 104.31). There were significant differences between mean total scores in terms of trainee/intern characteristics, internal medicine/surgical medicine rotations, and perception of success. The results of this study drew attention to certain aspects of the clinical learning climate in medical schools. Clinical teacher/instructor/supervisor, clinical training programs, students' interactions in clinical settings, self-realization, mood, students' intrinsic motivation, and institutional commitment are important components of the clinical learning climate. For this reason, the aforementioned components should be taken into consideration in studies aiming to improve clinical learning climate.

A multicenter study: how do medical students perceive clinical learning climate?

PubMed

Yilmaz, Nilufer Demiral; Velipasaoglu, Serpil; Ozan, Sema; Basusta, Bilge Uzun; Midik, Ozlem; Mamakli, Sumer; Karaoglu, Nazan; Tengiz, Funda; Durak, Halil İbrahim; Sahin, Hatice

2016-01-01

Background The relationship between students and instructors is of crucial importance for the development of a positive learning climate. Learning climate is a multifaceted concept, and its measurement is a complicated process. The aim of this cross-sectional study was to determine medical students' perceptions about the clinical learning climate and to investigate differences in their perceptions in terms of various variables. Methods Medical students studying at six medical schools in Turkey were recruited for the study. All students who completed clinical rotations, which lasted for 3 or more weeks, were included in the study (n=3,097). Data were collected using the Clinical Learning Climate Scale (CLCS). The CLCS (36 items) includes three subscales: clinical environment, emotion, and motivation. Each item is scored using a 5-point Likert scale (1: strongly disagree to 5: strongly agree). Results The response rate for the trainees was 69.67% (n=1,519), and for the interns it was 51.47% (n=917). The mean total CLCS score was 117.20±17.19. The rotation during which the clinical learning climate was perceived most favorably was the Physical Therapy and Rehabilitation rotation (mean score: 137.77). The most negatively perceived rotation was the General Internal Medicine rotation (mean score: 104.31). There were significant differences between mean total scores in terms of trainee/intern characteristics, internal medicine/surgical medicine rotations, and perception of success. Conclusion The results of this study drew attention to certain aspects of the clinical learning climate in medical schools. Clinical teacher/instructor/supervisor, clinical training programs, students' interactions in clinical settings, self-realization, mood, students' intrinsic motivation, and institutional commitment are important components of the clinical learning climate. For this reason, the aforementioned components should be taken into consideration in studies aiming to improve clinical learning climate.

Role of Head Teachers in Ensuring Sound Climate

ERIC Educational Resources Information Center

Kor, Jacob; Opare, James K.

2017-01-01

The school climate is outlined in literature as one of the most important within school factors required for effective teaching in learning. As leaders in any organisations are assigned the role of ensuring sound climates for work, head teachers also have the task of creating and maintaining an environment conducive for effective academic work…

Principal-Teacher Interactions: How Affective Relationships Shape Principal and Teacher Attitudes

ERIC Educational Resources Information Center

Price, Heather E.

2012-01-01

Purpose: Research finds that the attitudes of principals and teachers create an atmosphere for learning, often referred to as school climate, that influences school effectiveness. Other research shows that atmospheres of trust, shared vision, and openness create positive school climate conditions. Little is known, however, about how these climates…

Teaching Children's Rights and Climate Change with the Support of Act for Climate Web-Based Learning Environment

ERIC Educational Resources Information Center

Gkotzos, Dimitrios

2017-01-01

This article presents an effort to integrate the issues of climate change and children's rights into the Greek primary school curriculum through the use of information and communication technologies (ICTs). The curriculum Act for Climate was developed through the lens of children's rights and with the support of a web-based learning environment…

The Role of Transformative Leadership, ICT-Infrastructure and Learning Climate in Teachers' Use of Digital Learning Materials during Their Classes

ERIC Educational Resources Information Center

Vermeulen, Marjan; Kreijns, Karel; van Buuren, Hans; Van Acker, Frederik

2017-01-01

This study investigated whether school organizational variables (ie, transformative leadership (TL), ICT-infrastructure (technical and social) and organizational learning climate were related to teachers' dispositional variables (ie, attitude, perceived norm and perceived behavior control [PBC]). The direct and indirect influences of the…

Playing fair: the contribution of high-functioning recess to overall school climate in low-income elementary schools.

PubMed

London, Rebecca A; Westrich, Lisa; Stokes-Guinan, Katie; McLaughlin, Milbrey

2015-01-01

Recess is a part of the elementary school day with strong implications for school climate. Positive school climate has been linked to a host of favorable student outcomes, from attendance to achievement. We examine 6 low-income elementary schools' experiences implementing a recess-based program designed to provide safe, healthy, and inclusive play to study how improving recess functioning can affect school climate. Data from teacher, principal, and recess coach interviews; student focus groups; recess observations; and a teacher survey are triangulated to understand the ways that recess changed during implementation. Comparing schools that achieved higher- and lower-functioning recesses, we link recess functioning with school climate. Recess improved in all schools, but 4 of the 6 achieved a higher-functioning recess. In these schools, teachers and principals agreed that by the end of the year, recess offered opportunities for student engagement, conflict resolution, pro-social skill development, and emotional and physical safety. Respondents in these four schools linked these changes to improved overall school climate. Recess is an important part of the school day for contributing to school climate. Creating a positive recess climate helps students to be engaged in meaningful play and return to class ready to learn. © 2014, American School Health Association.

Association of Grade Configuration with School Climate for 7th and 8th Grade Students

ERIC Educational Resources Information Center

Malone, Marisa; Cornell, Dewey; Shukla, Kathan

2017-01-01

Educational authorities have questioned whether middle schools provide the best school climate for 7th and 8th grade students, and proposed that other grade configurations such as K-8th grade schools may provide a better learning environment. The purpose of this study was to compare 7th and 8th grade students' perceptions of 4 key features of…

UWHS Climate Science: Uniting University Scientists and High School Teachers in the Development and Implementation of a Dual-Credit STEM-Focused Curriculum

NASA Astrophysics Data System (ADS)

Bertram, M. A.; Thompson, L.; Ackerman, T. P.

2012-12-01

The University of Washington is adapting a popular UW Atmospheric Sciences course on Climate and Climate Change for the high school environment. In the process, a STEM-focused teaching and learning community has formed. With the support of NASA Global Climate Change Education 20 teachers have participated in an evolving professional development program that brings those actively engaged in research together with high school teachers passionate about bringing a formal climate science course into the high school. Over a period of several months participating teachers work through the UW course homework and delve deeply into specific subject areas. Then, during a week-long summer institute, scientists bring their particular expertise (e.g. radiation, modeling) to the high school teachers through lectures or labs. Together they identify existing lectures, textbook material and peer-reviewed resources and labs available through the internet that can be used to effectively teach the UW material to the high school students. Through this process the scientists learn how to develop teaching materials around their area of expertise, teachers engage deeply in the subject matter, and both the university and high school teachers are armed with the tools to effectively teach a STEM-focused introductory course in climate science. To date 12 new hands-on modules have been completed or are under development, exploring ice-cores, isotopes, historical temperature trends, energy balance, climate models, and more. Two modules have been tested in the classroom and are ready for peer-review through well-respected national resources such as CLEAN or the National Earth Science Teachers Association; three others are complete and will be implemented in a high school classroom this year, and the remainder under various stages of development. The UWHS ATMS 211 course was piloted in two APES (Advanced Placement Environmental Science classrooms) in Washington State in 2011/2012. The high school course used the UW Atmospheric Sciences curriculum, exams, and textbook (The Earth System, 3rd edition, Kump, Kasting and Crane, 2010), and one of the hands-on modules. Communication with these instructors during the year helped us define assessment strategies and to identify challenges of bringing the material into the high school classroom. This knowledge will be shared with teachers during our summer 2012 workshop and will inform approaches to teaching the course in 2012/2013. Proposed formats for implementation include year-long courses, using the APES/Climate format of 2011/2012, a union of Oceanography and Climate content, or in the context of an engineering course. Our initial vision was for a stand-alone semester or year-long course in climate science, incorporating excel and data handling as a learning tool and a suite of hands-on learning opportunities. Yet, the creative approaches to implementation of a new course in the schools, together with the breadth and depth of the UW curriculum and the Kump et al. 2010 textbook, have resulted in diverse educational approaches for bringing climate science into the high school.

Pedagogical and Social Climate in School Questionnaire: Factorial Validity and Reliability of the Teacher Version

ERIC Educational Resources Information Center

Dimitrova, Radosveta; Ferrer-Wreder, Laura; Galanti, Maria Rosaria

2016-01-01

This study evaluated the factorial structure of the Pedagogical and Social Climate in School (PESOC) questionnaire among 307 teachers in Bulgaria. The teacher edition of PESOC consists of 11 scales (i.e., Expectations for Students, Unity Among Teachers, Approach to Students, Basic Assumptions About Students' Ability to Learn, School-Home…

Evaluation of Authentic Science Projects on Climate Change in Secondary Schools: A Focus on Gender Differences

ERIC Educational Resources Information Center

Dijkstra, Elma; Goedhart, Martin

2011-01-01

Background and purpose: This study examines secondary-school students' opinions on participating in authentic science projects which are part of an international EU project on climate change research in seven countries. Partnerships between schools and research institutes result in student projects, in which students work with and learn from…

Student Perceptions of School Climate: A Validity and Data Use Study of a District-Developed Survey

ERIC Educational Resources Information Center

Martin-Glenn, Mya L.

2013-01-01

Over the past 25 years, researchers have consistently reported that students' perceptions of their school's climate can have a measurable impact on their level of engagement in school, motivation to learn, social development, and, ultimately, their academic achievement. In light of the continued emphasis on education reform and school…

Strengthening Assessments of School Climate: Lessons from the NYC School Survey. Brief

ERIC Educational Resources Information Center

Nathanson, Lori; McCormick, Meghan; Kemple, James J.

2013-01-01

More and more cities and states are using surveys to collect information about school climate from students, teachers and parents. These surveys have the potential to shed light on critical aspects of the learning environment, and they are being incorporated into a growing number of public and privately funded education initiatives. The US…

Perception of School Climate: A Comparison of Black and White Teachers within the Same Schools

ERIC Educational Resources Information Center

Wittmer, Joe; Ferinden, Fred

1970-01-01

This study compares perceptions of the interpersonal school climate as viewed by black and white teachers. Differences do exist between the two groups regarding the teacher versus different type student andon the teacher versus self. No differences exist in perception of the principal or as to how students should learn. (Author/KJ)

The Impact of School Climate and School Identification on Academic Achievement: Multilevel Modeling with Student and Teacher Data

PubMed Central

Maxwell, Sophie; Reynolds, Katherine J.; Lee, Eunro; Subasic, Emina; Bromhead, David

2017-01-01

School climate is a leading factor in explaining student learning and achievement. Less work has explored the impact of both staff and student perceptions of school climate raising interesting questions about whether staff school climate experiences can add “value” to students' achievement. In the current research, multiple sources were integrated into a multilevel model, including staff self-reports, student self-reports, objective school records of academic achievement, and socio-economic demographics. Achievement was assessed using a national literacy and numeracy tests (N = 760 staff and 2,257 students from 17 secondary schools). In addition, guided by the “social identity approach,” school identification is investigated as a possible psychological mechanism to explain the relationship between school climate and achievement. In line with predictions, results show that students' perceptions of school climate significantly explain writing and numeracy achievement and this effect is mediated by students' psychological identification with the school. Furthermore, staff perceptions of school climate explain students' achievement on numeracy, writing and reading tests (while accounting for students' responses). However, staff's school identification did not play a significant role. Implications of these findings for organizational, social, and educational research are discussed. PMID:29259564

The Impact of School Climate and School Identification on Academic Achievement: Multilevel Modeling with Student and Teacher Data.

PubMed

Maxwell, Sophie; Reynolds, Katherine J; Lee, Eunro; Subasic, Emina; Bromhead, David

2017-01-01

School climate is a leading factor in explaining student learning and achievement. Less work has explored the impact of both staff and student perceptions of school climate raising interesting questions about whether staff school climate experiences can add "value" to students' achievement. In the current research, multiple sources were integrated into a multilevel model, including staff self-reports, student self-reports, objective school records of academic achievement, and socio-economic demographics. Achievement was assessed using a national literacy and numeracy tests ( N = 760 staff and 2,257 students from 17 secondary schools). In addition, guided by the "social identity approach," school identification is investigated as a possible psychological mechanism to explain the relationship between school climate and achievement. In line with predictions, results show that students' perceptions of school climate significantly explain writing and numeracy achievement and this effect is mediated by students' psychological identification with the school. Furthermore, staff perceptions of school climate explain students' achievement on numeracy, writing and reading tests (while accounting for students' responses). However, staff's school identification did not play a significant role. Implications of these findings for organizational, social, and educational research are discussed.

Perceived class climate and school-aged children's life satisfaction: The role of the learning environment in classrooms.

PubMed

Rathmann, Katharina; Herke, Max G; Hurrelmann, Klaus; Richter, Matthias

2018-01-01

The aim of this study is to examine the impact of class-level class climate on school-aged children's life satisfaction. Data was derived from the German National Educational Panel Study (NEPS) using sixth grade school-aged children (n = 4,764, 483 classes). Class climate includes indicators of teachers' care and monitoring, demands, interaction, autonomy, as well as school-aged children's attitudes towards schoolwork at the class- and individual-level. Results showed that individual perceived class climate in terms of teachers' care and monitoring and autonomy was positively related to life satisfaction, whereas school-related demands were related to lower life satisfaction. Besides teachers' care and monitoring at class-level, indicators of class climate were not associated with school-aged children's life satisfaction, while the individual perceived class climate is more important for life satisfaction.

Perceived class climate and school-aged children's life satisfaction: The role of the learning environment in classrooms

PubMed Central

Herke, Max G.; Hurrelmann, Klaus; Richter, Matthias

2018-01-01

The aim of this study is to examine the impact of class-level class climate on school-aged children’s life satisfaction. Data was derived from the German National Educational Panel Study (NEPS) using sixth grade school-aged children (n = 4,764, 483 classes). Class climate includes indicators of teachers' care and monitoring, demands, interaction, autonomy, as well as school-aged children's attitudes towards schoolwork at the class- and individual-level. Results showed that individual perceived class climate in terms of teachers' care and monitoring and autonomy was positively related to life satisfaction, whereas school-related demands were related to lower life satisfaction. Besides teachers' care and monitoring at class-level, indicators of class climate were not associated with school-aged children’s life satisfaction, while the individual perceived class climate is more important for life satisfaction. PMID:29420540

Interactive Leadership in Turbulent School Climates. An Exploratory Study of High School Principals from the City of Buenos Aires

ERIC Educational Resources Information Center

Romero, Claudia; Krichesky, Gabriela

2018-01-01

School leadership has been identified as a key function to assuring quality in education. Principals' leadership can have a direct effect on students' learning by improving teaching, or an indirect effect by creating conditions that foster learning. This exploratory study aims to understand how school principals exercise their leadership and its…

A Quasi-Randomized Trial of a School-Wide Universal Prevention Program: Results and Lessons Learned

ERIC Educational Resources Information Center

Bodin, Maria C.; South, Sandra H.; Ingemarson, Maria

2016-01-01

Prevention in School (PS) is a comprehensive program which aims to improve the learning climate and reduce problem behavior in elementary schools. Core components are teaching of school rules, praise and rewards to support prosocial behavior, and a forum involving parents. This trial investigated the effects of PS on its intended outcomes, and…

What Every Leader for School Improvement Needs to Know about Student and Learning Supports. A Center Policy and Practice Brief

ERIC Educational Resources Information Center

Center for Mental Health in Schools at UCLA, 2011

2011-01-01

achievement and well-being and enhancing school climate. While the emphasis shifts, there is constant pressure to do more about learning problems; bullying, harassment, and other forms of violence and acting out behavior at school; substance abuse; disconnected students;…

Promising and Successful Programs and practices in Schools with Intermediate Grade Levels: Programs, Projects & Activities. Information & Dissemination Series 18.

ERIC Educational Resources Information Center

Hawaii State Dept. of Education, Honolulu. Office of Instructional Services.

Outlined are the following 11 successful programs, projects, and activities functioning in Hawaii's intermediate schools: Alternative Learning Center (Waipahu and Pearl City Highlands); Career Awareness Exploring through Basic Practical Arts; Career Education Guidance (Kailua); Creating a Positive School Climate; Learning through the Arts;…

The Influence of Principal Leadership on Classroom Instruction and Student Learning: A Study of Mediated Pathways to Learning

ERIC Educational Resources Information Center

Sebastian, James; Allensworth, Elaine

2012-01-01

Purpose: This study examines the influence of principal leadership in high schools on classroom instruction and student achievement through key organizational factors, including professional capacity, parent-community ties, and the school's learning climate. It identifies paths through which leadership explains differences in achievement and…

Assessing Measurement Invariance of the Student Personal Perception of Classroom Climate across Different Ethnic Groups

ERIC Educational Resources Information Center

Rubie-Davies, Christine; Asil, Mustafa; Teo, Timothy

2016-01-01

The class climate is acknowledged as being related to student learning. Students learn more in classrooms that are supportive and caring. However, there are few class climate instruments at the elementary school level. The aim of the current study was to assess the measurement invariance of a recently developed scale in a different context (New…

Neighborhood crime and school climate as predictors of elementary school academic quality: a cross-lagged panel analysis.

PubMed

McCoy, Dana Charles; Roy, Amanda L; Sirkman, Gabriel M

2013-09-01

Past research has found negative relationships between neighborhood structural disadvantage and students' academic outcomes. Comparatively little work has evaluated the associations between characteristics of neighborhoods and schools themselves. This study explored the longitudinal, reciprocal relationships between neighborhood crime and school-level academic achievement within 500 urban schools. Results revealed that higher neighborhood crime (and particularly violent crime) predicted decreases in school academic achievement across time. School climate emerged as one possible mechanism within this relationship, with higher neighborhood crime predicting decreases in socioemotional learning and safety, but not academic rigor. All three dimensions of school climate were predictive of changes in academic achievement. Although this research supports a primarily unidirectional hypothesis of neighborhoods' impacts on embedded settings, additional work is needed to understand these relationships using additional conceptualizations of neighborhood climate.

Playgrounds and Prejudice: Elementary School Climate in the United States. A Survey of Students and Teachers

ERIC Educational Resources Information Center

Gay, Lesbian and Straight Education Network (GLSEN), 2012

2012-01-01

Students' school education consists of not only what they are explicitly taught in the classroom, but also what they implicitly learn through the language, attitudes and actions of other students and teachers. When these attitudes, remarks and actions are unsupportive or hostile, they create a school climate that can negatively impact students'…

The Study of Factor Structure and Reliability of an Abbreviated School Climate Survey

ERIC Educational Resources Information Center

Ding, Cody; Liu, Ying; Berkowitz, Marvin

2011-01-01

The concept of school climate has been an important variable in research on quality of school life and student learning. One of the challenges in such a research effort is to develop instruments that could effectively and efficiently measure the construct. The purpose of the current study was to examine the factor structure and reliability of an…

A multicenter study: how do medical students perceive clinical learning climate?

PubMed Central

Yilmaz, Nilufer Demiral; Velipasaoglu, Serpil; Ozan, Sema; Basusta, Bilge Uzun; Midik, Ozlem; Mamakli, Sumer; Karaoglu, Nazan; Tengiz, Funda; Durak, Halil İbrahim; Sahin, Hatice

2016-01-01

Background The relationship between students and instructors is of crucial importance for the development of a positive learning climate. Learning climate is a multifaceted concept, and its measurement is a complicated process. The aim of this cross-sectional study was to determine medical students’ perceptions about the clinical learning climate and to investigate differences in their perceptions in terms of various variables. Methods Medical students studying at six medical schools in Turkey were recruited for the study. All students who completed clinical rotations, which lasted for 3 or more weeks, were included in the study (n=3,097). Data were collected using the Clinical Learning Climate Scale (CLCS). The CLCS (36 items) includes three subscales: clinical environment, emotion, and motivation. Each item is scored using a 5-point Likert scale (1: strongly disagree to 5: strongly agree). Results The response rate for the trainees was 69.67% (n=1,519), and for the interns it was 51.47% (n=917). The mean total CLCS score was 117.20±17.19. The rotation during which the clinical learning climate was perceived most favorably was the Physical Therapy and Rehabilitation rotation (mean score: 137.77). The most negatively perceived rotation was the General Internal Medicine rotation (mean score: 104.31). There were significant differences between mean total scores in terms of trainee/intern characteristics, internal medicine/surgical medicine rotations, and perception of success. Conclusion The results of this study drew attention to certain aspects of the clinical learning climate in medical schools. Clinical teacher/instructor/supervisor, clinical training programs, students’ interactions in clinical settings, self-realization, mood, students’ intrinsic motivation, and institutional commitment are important components of the clinical learning climate. For this reason, the aforementioned components should be taken into consideration in studies aiming to improve clinical learning climate. PMID:27640648

The Citizen Science Program "H2O SOS: Help Heal the Ocean—Student Operated Solutions: Operation Climate Change" teaches middle and high school students about ocean threats related to climate change through hands-on activities and learning experiences in the field. This is a continuation of the Program presented last year at the Poster Session.

NASA Astrophysics Data System (ADS)

Weiss, N. K.; Wood, J. H.

2017-12-01

TThe Citizen Science Program H2O SOS: Help Heal the Ocean—Student Operated Solutions: Operation Climate Change, teaches middle and high school students about ocean threats related to climate change through hands-on activities and learning experiences in the field. During each session (in-class or after-school as a club), students build an understanding about how climate change impacts our oceans using resources provided by ExplorOcean (hands-on activities, presentations, multi-media). Through a student leadership model, students present lessons to each other, interweaving a deep learning of science, 21st century technology, communication skills, and leadership. After participating in learning experiences and activities related to 6 key climate change concepts: 1) Introduction to climate change, 2) Increased sea temperatures, 3) Ocean acidification, 4) Sea level rise, 5) Feedback mechanisms, and 6) Innovative solutions. H2O SOS- Operation Climate change participants select one focus issue and use it to design a multi-pronged campaign to increase awareness about this issue in their local community. The campaign includes social media, an interactive activity, and a visual component. All participating clubs that meet participation and action goals earn a field trip to Ocean Quest where they dive deeper into their selected issue through hands-on activities, real-world investigations, and interviews or presentations with experts. In addition to self-selected opportunities to showcase their focus issue, teams will participate in one of several key events identified by Ocean Quest.

Textbooks of Doubt: Using Systemic Functional Analysis to Explore the Framing of Climate Change in Middle-School Science Textbooks

ERIC Educational Resources Information Center

Román, Diego; Busch, K. C.

2016-01-01

Middle school students are learning about climate change in large part through textbooks used in their classes. Therefore, it is crucial to understand how the language employed in these materials frames this topic. To this end, we used systemic functional analysis to study the language of the chapters related to climate change in four sixth grade…

The Medical School Learning Environment Survey: An Examination of Its Factor Structure and Relationship to Student Performance and Satisfaction

ERIC Educational Resources Information Center

Rusticus, Shayna; Worthington, Anne; Wilson, Derek; Joughin, Karen

2014-01-01

The Medical School Learning Environment Survey (MSLES) was used with a sample of 311 undergraduate medical students in British Columbia, Canada, to assess the seven scales of Medical Breadth of Interest, Personal Breadth of Interest, Emotional Climate, Flexibility, Meaningful Learning Experience, Organization, Nurturance and Student-Student…

Learning Progressions & Climate Change

ERIC Educational Resources Information Center

Parker, Joyce M.; de los Santos, Elizabeth X.; Anderson, Charles W.

2015-01-01

Our society is currently having serious debates about sources of energy and global climate change. But do students (and the public) have the requisite knowledge to engage these issues as informed citizenry? The learning-progression research summarized here indicates that only 10% of high school students typically have a level of understanding…

School Leadership: A Blueprint for Change.

ERIC Educational Resources Information Center

Thomson, Scott D., Ed.

The new age of education shows an increasing focus on human development through family involvement, community learning resources, community social service, staff development, involvement, technology, learning climate, and motivation/reward systems. Integration of these areas calls for skills that are not traditionally taught to school leaders.…

The relationship between constructivist supervisory practices, school climate, and student proficiency in reading, mathematics, and science: Evidence from NELS:88

NASA Astrophysics Data System (ADS)

Molnar, John Alexander

In an effort to improve instruction and student learning, school reform efforts have become prevalent. School reformers have examined many aspects of the school experience, including learning theories such as behaviorism and constructivism, the changing roles of teachers and supervisors, and even the concept of the school itself. The theoretical framework for this study centered around constructivist learning theory. The study itself focused on the application of constructivist learning theory to the supervisory process. The study examined five areas of interest: (a) teachers' perceptions of constructivist supervisory behavior; (b) teachers' perceptions of efficacy and control in the classroom; (c) teachers' perceptions of school climate; (d) teachers' perceptions of job satisfaction, and (e) the influences of each of the aforementioned on student proficiency in mathematics, reading, and science. Data for the study was drawn from the first follow-up survey of the National Educational Longitudinal Study of 1988 (NELS: 88). NELS: 88 investigated a wide variety of factors that influence the educational process. The first follow-up focuses on environmental factors that affect teachers and students. Variables were selected from the NELS:88 data set that represented the areas to be examined. Factor analysis and correlational analysis were applied to ensure that the variables were measuring distinct constructs and to determine ways they could be grouped for analysis. Multiple linear regression analysis was applied to determine relationships among the individual and composite variables, controlling for student and teacher demographic factors. The results of the study suggest that varying relationships do exist between constructivist supervisory practices and the constructs measuring school climate and job satisfaction. The results also suggest that varying relationships exist between each of these factors and student proficiency in mathematics, reading, and science. Specifically, school climate, job satisfaction, and student proficiency were influenced by constructivist supervisory practices that included teachers' freedom to experiment with teaching and teachers' control over texts and materials.

School Violent Crime and Academic Achievement in Chicago*

PubMed Central

Burdick-Will, Julia

2013-01-01

Educational outcomes vary dramatically across schools in the United States. Many under-performing schools, especially in Chicago, also deal with high levels of violent crime on school grounds. Exposure to this type of frequent violence may be an important factor shaping already disadvantaged students’ educational experiences. However, estimating the effect of school violence on learning is difficult due to potential selection bias and the confounding of other school-level problems. Using detailed crime data from the Chicago Police Department, complete administrative records from the Chicago Public Schools, and school climate surveys conducted by the Consortium on Chicago School Research (2002–10), this study exploits variation in violent crime rates within schools over time to estimate its effect on academic achievement. School and neighborhood fixed-effects models show that violent crime rates have a negative effect on test scores, but not on grades. This effect is more likely related to direct reductions in learning, through cognitive stress and classroom disruptions, than changes in perceived safety, general school climate, or discipline practices. PMID:24259755

School Violent Crime and Academic Achievement in Chicago.

PubMed

Burdick-Will, Julia

2013-10-01

Educational outcomes vary dramatically across schools in the United States. Many under-performing schools, especially in Chicago, also deal with high levels of violent crime on school grounds. Exposure to this type of frequent violence may be an important factor shaping already disadvantaged students' educational experiences. However, estimating the effect of school violence on learning is difficult due to potential selection bias and the confounding of other school-level problems. Using detailed crime data from the Chicago Police Department, complete administrative records from the Chicago Public Schools, and school climate surveys conducted by the Consortium on Chicago School Research (2002-10), this study exploits variation in violent crime rates within schools over time to estimate its effect on academic achievement. School and neighborhood fixed-effects models show that violent crime rates have a negative effect on test scores, but not on grades. This effect is more likely related to direct reductions in learning, through cognitive stress and classroom disruptions, than changes in perceived safety, general school climate, or discipline practices.

"Nuestra Tierra Dinamica" Global Climate Change STEM Education Fostering Environmental Stewardship

NASA Astrophysics Data System (ADS)

La Grave, M.; de Valenzuela, M.; Russell, R.

2012-12-01

CLUB ECO LÓGICO is a democratic and participatory program that provides active citizenship in schools and community, placing climate change into context for the Latino Community. The program's objectives focus on: 1. The Environment. Reducing the school and community impact on the environment through environmental footprint through stewardship actions. 2. Empowerment. Engaging participants through project and service learning and make decisions about how to improve their schools, their homes and their community's environment. 3. Community and Research Partnerships. Fostering collaborations with local community, stakeholders, government, universities, research organizations, and businesses that have expertise in environmental research, management, education and climate change. 4. Awareness. Increasing environmental and climate science knowledge of participants through STEM activities and hands-on access to technology. 5. Research and evaluation. Assessing the relevance of program activities through the engagement of the Latino community in planning and the effectiveness and impact of STEM activities through formative and summative evaluation. To address these objectives, the program has several inter related components in an after school setting: SUN EARTH Connections: Elementary (grades K to 2) students learn the basic climate change concepts through inquiry and hands on STEM activities. Bilingual 8 facilitators adapt relevant NASA educational resources for use in inquiry based, hands on activities. Drama and the arts provide unique experiences as well as play a key role in learning, participation and facilitation. GREEN LABS: Elementary students (grades 3 to 5) participate in stations where each Lab is staffed by at least two professionals: a College level fully bilingual Latin American Professional and a stakeholder representing either a research organization or other relevant environmental organization. Our current Green Lab themes include: Air, Soils, Water, Energy, Health, Waste and Communicating Science. Parental and Community Engagement: Family or Community Nights and community events showcasing student products, videos, and service learning projects in a bilingual format; and presentations by research scientists on climate and environmental science topics of interest to the Latino community. Our events have been highlighted on Univision television evening news, reaching Latinos across the state. Digital Story Telling: Our Video Lab involves Latino high school students who are trained as mentors, encouraged to research climate change topics, meet scientists and learn about video technology. By fall 2013, our HS Video Lab will mentor local middle school students. Throughout the year students take field trips to film and interview key scientists and educators. The project will share lessons learned concerning several issues: 1. What environmental and climate science issues are most relevant for Latinos; 2. What strategies are effective in engaging the Latino community in program planning and in engaging participation; 3. What approaches are effective in developing or adapting environmental and climate science education activities for Latino students and families; 4. How to develop effective partnerships with research and other environmental organizations; 5. How to develop culturally sensitive evaluation strategies.

Climate Change Education in the U.S. Affiliated Pacific Islands

NASA Astrophysics Data System (ADS)

Sussman, A.; Fletcher, C. H.; Sachs, J. P.

2013-12-01

The Pacific Islands Climate Education Partnership (PCEP) serves the U.S. Affiliated Pacific Island (USAPI) Region. The international entities served by PCEP are the state of Hawai';i (USA); three Freely Associated States (the Federated States of Micronesia, the Republic of the Marshall Islands, and the Republic of Palau), and three Territories (Guam, Commonwealth of Northern Mariana Islands, and American Samoa). These Pacific Islands spread across 4.9 million square miles and include diverse indigenous cultures and languages. Many USAPI students live considerably below the poverty line. The Pacific Island region is projected to experience some of the most profound negative impacts considerably sooner than other regions. Funded by NSF, the PCEP aims to educate the region's students and citizens in ways that exemplify modern science and indigenous environmental knowledge, address the urgency of climate change impacts, and honor indigenous cultures. Students and citizens within the region will have the knowledge and skills to advance their and our understanding of climate change, and to adapt to its impacts. The PCEP Strategic Plan incorporates a range of interconnected strategic goals grouped into four priority education areas: Climate Education Framework --Implement a next-generation Climate Education Framework that focuses on the content and skills necessary for understanding the science of global and Pacific island climates, as well as the adaptation to climate impacts in the USAPI region. Indigenous Knowledge and Practices --Gather appropriate local indigenous knowledge based on the cultural stories and traditional practices related to environmental stewardship, climate, and local climate adaptation strategies. Learning and Teaching--Enhance conditions for learning about climate change in K-14 classrooms with the CEF through college-based, credentialed climate education programs; professional learning opportunities for teachers; and increased teacher implementation of locally-relevant climate science and adaptation curricula. Community-School Partnership --Connect schools (K-14) and community climate adaptation partners through locally relevant projects to implement effective and sustainable climate education. Explore and build awareness of resources that the community, colleges, and K-12 schools have to offer each other, and initiate partnering activities to support project-based learning activities. Current PCEP activities include: revising state and national science education standards to better incorporate climate change; contextualizing curricula to wide variety of climate and education contexts; gathering local indigenous knowledge and practices related to climate education and adaptation; providing professional development appropriate to these very diverse locations; supporting local professional learning communities in each international location; and developing a regional climate education certificate program. A key PCEP challenge is to maintain a coherent regional identity while contextualizing education activities to very diverse locations. PCEP staff have a high priority to learn, share and communicate across these locations, and to broadly benefit from lessons learned in each of the locations. Another strong connector is the overlap in climate changes, impacts and adaptation strategies across this international region.

Safe and Peaceful Schools: Addressing Conflict and Eliminating Violence

ERIC Educational Resources Information Center

Winslade, John; Williams, Michael

2012-01-01

In today's culture where bullying and violence are on the rise, we know that children who are afraid or anxious are in no state of mind to learn. If you are serious about creating a safe school climate conducive to learning, this book will show you how. Written by counseling experts, "Safe and Peaceful Schools" provides a variety of research-based…

How Graduate-Level Preparation Influences the Effectiveness of School Leaders: A Comparison of the Outcomes of Exemplary and Conventional Leadership Preparation Programs for Principals

ERIC Educational Resources Information Center

Orr, Margaret Terry; Orphanos, Stelios

2011-01-01

Purpose: This study attempted to determine the influence of exemplary leadership preparation on what principals learn about leadership, their use of effective leadership practices, and how their practices influence school improvement and the school's learning climate. The authors also investigated how the frequency of effective leadership…

What Principals Do to Improve Teaching and Learning: Comparing the Use of Informal Classroom Observations in Two School Districts

ERIC Educational Resources Information Center

Ing, Marsha

2013-01-01

Informally observing classrooms is one way that principals can help improve teaching and learning. This study describes the variability of principals' classroom observations across schools and identifies the conditions under which observations relate to the instructional climate in some schools and not others. Data for this study come from…

How Five Master Teachers Teach about Climate Chang

NASA Astrophysics Data System (ADS)

Bloch, L.

2015-12-01

The AGU Position Statement, "Human-Induced Climate Change Requires Urgent Action," calls on scientists to "[work] with stakeholders to identify relevant information, and [to convey] understanding clearly and accurately, both to decision makers and to the general public". Everyday, K-12 teachers communicate with an important segment of the general public, and they represent important stakeholders with unique needs. The terms 'global warming', 'greenhouse effect', and 'climate change' appear nowhere in the 1996 National Science Education Standards, but under the Next Generation Science Standards, millions of teachers- most of whom have little to no experience teaching about climate change- will be required to cover the topic. This presentation discusses research conducted with five veteran public school teachers, each of whom has been teaching about climate change for many years. The group comprises three high school teachers, a middle school teacher, and an elementary school teacher. The study examined: 1) What these teachers teach about climate change; 2) How they teach about climate change; 3) What resources they use in teaching and learning about climate change; and 4) How they think the scientific community can support teachers in their efforts to teach about climate change. The teachers varied in their teaching practices and in their conceptions of 'climate change', but they all said that the academic community can support climate change education by developing locally relevant educational resources. Scientists working with K-12 teachers can build on the work of these master teachers, and attendees can access detailed descriptions of all of the lessons and the associated learning materials.

Five Climate Control Techniques for Schools.

ERIC Educational Resources Information Center

Wilson, Maurice J.

1963-01-01

There are many reasons for air-conditioning schools and among them are--(1) the improvement of learning and teaching efficiency, (2) effective use of the educational plant for a greater part of the year, and (3) more efficient use of space through compact building design. Five climate control techniques are cited as providing optimum…

Empathy and Effortful Control Effects on Early Adolescents' Aggression: When Do Students' Perceptions of Their School Climate Matter?

ERIC Educational Resources Information Center

Batanova, Milena; Loukas, Alexandra

2016-01-01

Guided by the social emotional learning framework, this study examined whether early adolescents' social awareness (empathic concern, perspective taking) and self-management (effortful control) would uniquely contribute to early adolescents' subsequent forms of aggression, and whether perceptions of their school climate (friction, cohesion,…

Improving School Climate to Reduce Bullying

ERIC Educational Resources Information Center

Smith, David

2012-01-01

Bullying harms kids in nearly every way imaginable. It disrupts their learning; it causes them to suffer anxiety and depression; and it undermines their feelings of safety and connection to school. New understandings of bullying are based on relationships and connect directly to the growing appreciation of the role of the social climate within…

School climate and delinquency among Chinese adolescents: analyses of effortful control as a moderator and deviant peer affiliation as a mediator.

PubMed

Bao, Zhenzhou; Li, Dongping; Zhang, Wei; Wang, Yanhui

2015-01-01

School climate is the quality and character of school life and reflects the norms, goals, values, interpersonal relationships, teaching and learning practices, and the organizational structure of a school. There is substantial literature documenting the negative association between positive school climate and adolescent delinquency, but little is known about the moderating and mediating mechanisms underlying this relationship. The aim of this study was to examine whether the direct and indirect pathways between school climate and adolescent delinquency would be moderated by effortful control. A sample of 2,758 Chinese adolescents (M age = 13.53 years, SD = 1.06) from 10 middle schools completed anonymous questionnaires regarding school climate, effortful control, deviant peer affiliation, and delinquency. After gender, age, geographical area, and socioeconomic status were included as covariates, the results revealed that school climate was significantly associated with adolescent delinquent behavior. This direct association was moderated by effortful control, such that the negative relationship between positive school climate and delinquency was only significant among adolescents low in effortful control. Moreover, the indirect association between school climate and delinquency via deviant peer affiliation was also moderated by effortful control. Specifically, the moderating effect of effortful control was not only manifested in the relationship between school climate and deviant peer affiliation, but also in the relationship between deviant peer affiliation and delinquency. These findings contribute to understanding the mechanisms through which positive school climate might reduce delinquent behavior and have important implications for prevention efforts aimed at diminishing adolescent delinquency.

Great Lakes Climate and Water Movement. Earth Systems - Education Activities for Great Lakes Schools (ES-EAGLS).

ERIC Educational Resources Information Center

Miller, Heidi, Ed.; Sheaffer, Amy L., Ed.

This activity book is part of a series designed to take a concept or idea from the existing school curriculum and develop it in the context of the Great Lakes using teaching approaches and materials appropriate for students in middle and high school. The theme of this book is Great Lakes climate and water movement. Students learn about land-sea…

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.

Creating a peaceful school learning environment: a controlled study of an elementary school intervention to reduce violence.

PubMed

Twemlow, S W; Fonagy, P; Sacco, F C; Gies, M L; Evans, R; Ewbank, R

2001-05-01

The impact of a manual-based antiviolence program on the learning climate in an elementary school over 4 years was compared with the outcome in a control school. The two schools were matched for demographic characteristics. The intervention in the experimental school was based on zero tolerance for bullying; the control school received only regular psychiatric consultation. Disciplinary and academic achievement data were collected in both schools. The experimental school showed significant reductions in discipline referrals and increases in scores on standardized academic achievement measures. A low-cost antiviolence intervention that does not focus on individual pathology or interfere with the educational process may improve the learning environment in elementary schools.

Schools of the Pacific rainfall climate experiment

NASA Technical Reports Server (NTRS)

Postawko, S. E.; Morrissey, M. L.; Taylor, G. J.; Mouginis-Mark, P.

1993-01-01

The SPaRCE program is a cooperative rainfall climate field project involving high school and college level students and teachers from various Pacific island and atoll nations. The goals of the SPaRCE program are: (1) to foster interest and increase understanding among Pacific-area students and teachers of climate and climate change; (2) to educate the students and teachers as to the importance of rainfall in the Pacific area to climate studies; (3) to provide the students and teachers an opportunity of making a major contribution to the global climate research effort by collecting and analyzing Pacific rainfall data; and (4) to incorporate collected rainfall observations into a comprehensive Pacific daily rainfall data base to be used for climate research purposes. Schools participating in SPaRCE have received standard raingauges with which to measure rainfall at their sites. Students learned to site and use their raingauges by viewing a video produced at the University of Oklahoma. Four more videos will be produced which will include information on Earth's atmosphere, global climate and climate change, regional climate and implications of climate change, and how to analyze and use the rainfall data they are collecting. The videos are accompanied by workbooks which summarize the main points of each video, and contain concrete learning activities to help the student better understand climate and climate change. Following each video, interactive sessions are held with the students using the PEACESAT (Pan-Pacific Education And Communication Experiments by Satellite) satellite radio communication system.

Context Matters for Social-Emotional Learning: Examining Variation in Program Impact by Dimensions of School Climate.

PubMed

McCormick, Meghan P; Cappella, Elise; O'Connor, Erin E; McClowry, Sandee G

2015-09-01

This paper examines whether three dimensions of school climate-leadership, accountability, and safety/respect-moderated the impacts of the INSIGHTS program on students' social-emotional, behavioral, and academic outcomes. Twenty-two urban schools and N = 435 low-income racial/ethnic minority students were enrolled in the study and received intervention services across the course of 2 years, in both kindergarten and first grade. Intervention effects on math and reading achievement were larger for students enrolled in schools with lower overall levels of leadership, accountability, and safety/respect at baseline. Program impacts on disruptive behaviors were greater in schools with lower levels of accountability at baseline; impacts on sustained attention were greater in schools with lower levels of safety/respect at baseline. Implications for Social-Emotional Learning program implementation, replication, and scale-up are discussed.

The Impact of Social and Emotional Learning Programs on the Emotional Competence and Academic Achievement of Children in Greek Primary School

ERIC Educational Resources Information Center

Babalis, Thomas; Tsoli, Konstantina; Artikis, Constantinos T.; Mylonakou-Keke, Iro; Xanthakou, Yota

2013-01-01

The present study examined the relationship between emotional intelligence, academic achievement and school climate among primary school students. The purpose of the study was to investigate the impact of social and emotional learning programs on the emotional intelligence and the academic achievement of 143 students in the 5th and 6th grade of…

Oakland Unified School District Community Schools: Understanding Implementation Efforts to Support Students, Teachers, and Families

ERIC Educational Resources Information Center

Fehrer, Kendra; Leos-Urbel, Jacob

2015-01-01

In 2010, Oakland Unified School District (OUSD) launched an initiative to transform all district schools into full service community schools. The community school design provides integrated supports to students and fosters a school climate conducive to academic, social, and emotional learning. Interventions span in-school and out-of-school time,…

Successfully Integrating Climate Change Education into School System Curriculum

NASA Astrophysics Data System (ADS)

Scallion, M.

2017-12-01

Maryland's Eastern Shore is threatened by climate change driven sea level rise. By working with school systems, rather than just with individual teachers, educators can gain access to an entire grade level of students, assuring that all students, regardless of socioeconomic background or prior coursework have an opportunity to explore the climate issue and be part of crafting community level solutions for their communities. We will address the benefits of working with school system partners to achieve a successful integration of in-school and outdoor learning by making teachers and administrators part of the process. We will explore how, through the Maryland and Delaware Climate Change Education, Assessment, and Research Project, teachers, content supervisors and informal educators worked together to create a climate curriculum with local context that effectively meets Common Core and Next Generation Science Standards. Over the course of several weeks during the year, students engage in a series of in-class and field activities directly correlated with their science curriculum. Wetlands and birds are used as examples of the local wildlife and habitat being impacted by climate change. Through these lessons led by Pickering Creek Audubon Center educators and strengthened by material covered by classroom teachers, students get a thorough introduction to the mechanism of climate change, local impacts of climate change on habitats and wildlife, and actions they can take as a community to mitigate the effects of climate change. The project concludes with a habitat and carbon stewardship project that gives students and teachers a sense of hope as they tackle this big issue on a local scale. We'll explore how the MADE-CLEAR Informal Climate Change Education (ICCE) Community of Practice supports Delaware and Maryland environmental educators in collaboratively learning and expanding their programming on the complex issue of climate change. Participants will learn how to include climate change education as part of a larger ecological exploration, giving students and teachers local context to this global issue and memorable outdoor hands-on experiences and student driven adaptation projects.

Classroom Disciplinary Climate in Secondary Schools in England: What Is the Real Picture?

ERIC Educational Resources Information Center

Jenkins, Andrew; Ueno, Akiko

2017-01-01

This paper uses international data from a range of sources, principally the 2013 round of the Teaching and Learning International Survey (TALIS 2013), to provide new information on classroom disciplinary climate in secondary schools in England. The paper advances the literature in three distinct ways. Firstly, the data show that teachers in…

The Role of the Dean: Fostering Teaching as Scholarship in the School of Education Learning Community.

ERIC Educational Resources Information Center

Huffman-Joley, Gail

Expectations for leaders in colleges of education are changing as are expectations for leaders in public schools and business. The traditional hierarchical model is being transformed into an organizational climate of teamwork and shared decision making, which have become the watchwords for organizational climate and change. In accord with these…

Reading Achievement, Mastery, and Performance Goal Structures among Students with Learning Disabilities: A Nonlinear Perspective

ERIC Educational Resources Information Center

Sideridis, Georgios D.; Stamovlasis, Dimitrios; Antoniou, Faye

2016-01-01

The purpose of the present study was to examine the hypothesis that a nonlinear relationship exists between a performance-classroom climate and the reading achievement of adolescent students with learning disabilities (LD). Participants were 62 students with LD (Grades 5-9) from public elementary schools in northern Greece. Classroom climate was…

Organizing Schools into Small Units: Alternatives to Homogeneous Grouping.

ERIC Educational Resources Information Center

Oxley, Diana

1994-01-01

Large school size adversely affects attendance, school climate, student involvement. Dividing large schools into small units creates a learning and teaching context that is more stable, intimate, supportive, interdisciplinary. Kohn-Holweide, a comprehensive German secondary school, groups all students at a given grade level with the same teachers…

An Analysis of a High Performing School District's Culture

ERIC Educational Resources Information Center

Corum, Kenneth D.; Schuetz, Todd B.

2012-01-01

This report describes a problem based learning project focusing on the cultural elements of a high performing school district. Current literature on school district culture provides numerous cultural elements that are present in high performing school districts. With the current climate in education placing pressure on school districts to perform…

Fanatically Formative: Successful Learning during the Crucial K-3 Years

ERIC Educational Resources Information Center

Sornson, Bob

2012-01-01

Helping children experience early learning success and acquire essential skills by third grade is a crucial part of any school reform effort. Yet, many teachers and children are overwhelmed by the ineffective curriculum-driven education system and the "rush to cover" climate in schools. "Fanatically Formative" shows how you can rediscover the joy…

Liberation through Preparation: Building Capacity to Lead America's Urban Schools

ERIC Educational Resources Information Center

Hert, Christopher J.

2010-01-01

Achieving higher levels of learning for all children has become the 21st century educational challenge across the nation. Substantial evidence exists that principals can have a profound effect on the learning climate, educational programs, and professional norms of practice in schools; however, controversy still reigns over the effects of…

Small Learning Communities: 2000-2003. Evaluation Brief

ERIC Educational Resources Information Center

Heath, Debra

2005-01-01

The purpose of this program evaluation was to identify the effects of Small Learning Community (SLC) reforms on school climate, student attitudes and student performance. Eight SLC programs in five Albuquerque high schools were studied for one to four years, depending on each program's date of inception. Data were collected from students,…

Plausibility Reappraisals and Shifts in Middle School Students' Climate Change Conceptions

ERIC Educational Resources Information Center

Lombardi, Doug; Sinatra, Gale M.; Nussbaum, E. Michael

2013-01-01

Plausibility is a central but under-examined topic in conceptual change research. Climate change is an important socio-scientific topic; however, many view human-induced climate change as implausible. When learning about climate change, students need to make plausibility judgments but they may not be sufficiently critical or reflective. The…

Lens on Climate Change: Making Climate Meaningful through Student-Produced Videos

ERIC Educational Resources Information Center

Gold, Anne U.; Oonk, David J.; Smith, Lesley; Boykoff, Maxwell T.; Osnes, Beth; Sullivan, Susan B.

2015-01-01

Learning about climate change is tangible when it addresses impacts that can be observed close to home. In this program, sixty-four diverse middle and high school students produced videos about locally relevant climate change topics. Graduate and undergraduate students provided mentorship. The program engaged students in research and learning…

A Relationship between the Florida Comprehensive Assessment Test 2.0 Mathematics Scores and Racial and Ethnic Concentration when Considering Socio-Economic Status, ESOL Student Population, and School Climate

ERIC Educational Resources Information Center

Galindo, Marilys

2013-01-01

From the moment children are born, they begin a lifetime journey of learning about themselves and their surroundings. With the establishment of the No Child Left Behind Act of 2001, it mandates that all children receive a high-quality education in a positive school climate. Regardless of the school the child attends or the neighborhood in which…

Climate Science Service Learning: Learning In Deed

NASA Astrophysics Data System (ADS)

Glass, D. S.

2012-12-01

Many schools require community service yet students work at a food bank or stream clean-up without understanding causes or solutions for the issues they encounter. Since students learn best when they make connections between scientific concepts and real-world issues that interest them, integrated science service learning is an effective and engaging way to teach. My fifth grade students at National Presbyterian School in Washington, DC learned about climate change through a service learning project to help the environment on campus. The curriculum was aligned with science and climate literacy frameworks, "Benchmarks for Science Literacy," from the American Academy for the Advancement of Science (AAAS) and "The Essential Principles of Climate Sciences," from the U.S. Global Change Research Program / U.S. Climate Change Science Program, and was supported through partnership with NOAA's Climate Stewards Education Program. The service learning project was implemented according to seven best practices of service learning: the students initiated the project, researched the issue, developed a plan, worked with the community, shared their results, reflected on the project, and celebrated their accomplishment. My class of 28 fifth-graders researched and experimented with several environmental variables affecting our campus. They brainstormed service projects they could do to help the environment and decided to focus on reducing idling in the school carpool lane. Students researched how automobile exhaust contributes to climate change, causes acid rain, and harms human health. Students designed a system to measure and eventually minimize the exhaust released by cars idling in the carpool line. They crafted a tally sheet to record the number and size of cars and their idling times. They measured temperature and CO2 data, although they did not find that the number of idling cars affected these variables. Students concluded that over an average week with pleasant weather, 35 of 165 cars (22%) which arrived early for carpool idled for a total of 509 minutes, putting out 75 kg of the greenhouse gas, CO2, other pollution, and costing the drivers $34.00 in fuel. Students used this research to develop an anti-idling campaign, which they presented to the whole student body and posted on the school website and e-newsletter. After the campaign, students again evaluated idling in the carpool lane and discovered that there was a slight decrease in the number of idling cars, 20%, down from 22%. Students hoped for greater improvement, but this second survey took place during a hot week when more people may have wanted to air condition their cars. Students also noted that many of the idlers were nannies who may not have heard the anti-idling campaign. On an assessment of climate science knowledge adapted for elementary students from the Yale Project on Climate change, students showed significant improvement. They also became more confident in their knowledge, moving from an average 3 before the project to an average 8.5 afterwards on a 10-point Likert scale. In sum, this project attests that science service learning can make science more concrete and relatable, teaching students not only about the concepts and techniques of science, but its role as a tool for the public good.

Community and School Gardens as Spaces for Learning Social Resilience

ERIC Educational Resources Information Center

Reis, Kimberley; Ferreira, Jo-Anne

2015-01-01

Can community and school gardens help people learn to build social resilience to potential food shortages? We seek to address this question through an examination of the ways in which gardens can teach individual and community resiliency in times of emergency, pockets of food insecurity, and the challenges presented by climate change. We focus on…

Stress, burnout and doctors' attitudes to work are determined by personality and learning style: a twelve year longitudinal study of UK medical graduates.

PubMed

McManus, I C; Keeling, A; Paice, E

2004-08-18

The study investigated the extent to which approaches to work, workplace climate, stress, burnout and satisfaction with medicine as a career in doctors aged about thirty are predicted by measures of learning style and personality measured five to twelve years earlier when the doctors were applicants to medical school or were medical students. Prospective study of a large cohort of doctors. The participants were first studied when they applied to any of five UK medical schools in 1990. Postal questionnaires were sent to all doctors with a traceable address on the current or a previous Medical Register. The current questionnaire included measures of Approaches to Work, Workplace Climate, stress (General Health Questionnaire), burnout (Maslach Burnout Inventory), and satisfaction with medicine as a career and personality (Big Five). Previous questionnaires had included measures of learning style (Study Process Questionnaire) and personality. Doctors' approaches to work were predicted by study habits and learning styles, both at application to medical school and in the final year. How doctors perceive their workplace climate and workload is predicted both by approaches to work and by measures of stress, burnout and satisfaction with medicine. These characteristics are partially predicted by trait measures of personality taken five years earlier. Stress, burnout and satisfaction also correlate with trait measures of personality taken five years earlier. Differences in approach to work and perceived workplace climate seem mainly to reflect stable, long-term individual differences in doctors themselves, reflected in measures of personality and learning style.

Stress, burnout and doctors' attitudes to work are determined by personality and learning style: A twelve year longitudinal study of UK medical graduates

PubMed Central

McManus, IC; Keeling, A; Paice, E

2004-01-01

Background The study investigated the extent to which approaches to work, workplace climate, stress, burnout and satisfaction with medicine as a career in doctors aged about thirty are predicted by measures of learning style and personality measured five to twelve years earlier when the doctors were applicants to medical school or were medical students. Methods Prospective study of a large cohort of doctors. The participants were first studied when they applied to any of five UK medical schools in 1990. Postal questionnaires were sent to all doctors with a traceable address on the current or a previous Medical Register. The current questionnaire included measures of Approaches to Work, Workplace Climate, stress (General Health Questionnaire), burnout (Maslach Burnout Inventory), and satisfaction with medicine as a career and personality (Big Five). Previous questionnaires had included measures of learning style (Study Process Questionnaire) and personality. Results Doctors' approaches to work were predicted by study habits and learning styles, both at application to medical school and in the final year. How doctors perceive their workplace climate and workload is predicted both by approaches to work and by measures of stress, burnout and satisfaction with medicine. These characteristics are partially predicted by trait measures of personality taken five years earlier. Stress, burnout and satisfaction also correlate with trait measures of personality taken five years earlier. Conclusions Differences in approach to work and perceived workplace climate seem mainly to reflect stable, long-term individual differences in doctors themselves, reflected in measures of personality and learning style. PMID:15317650

Virtual Schools: Improving Outcomes for Students with Disabilities

ERIC Educational Resources Information Center

Repetto, Jeanne; Cavanaugh, Cathy; Wayer, Nicola; Liu, Feng

2010-01-01

Individual and social benefits accrue when high school graduation rates increase. One approach to increasing graduation rates is to design learning environments that serve students with disabilities through the 5Cs known to increase school completion: connect, climate, control, curriculum, and caring community. Virtual school programs align with…

Arctic summer school onboard an icebreaker

NASA Astrophysics Data System (ADS)

Alexeev, Vladimir A.; Repina, Irina A.

2014-05-01

The International Arctic Research Center (IARC) of the University of Alaska Fairbanks conducted a summer school for PhD students, post-docs and early career scientists in August-September 2013, jointly with an arctic expedition as a part of NABOS project (Nansen and Amundsen Basin Observational System) onboard the Russian research vessel "Akademik Fedorov". Both the summer school and NABOS expedition were funded by the National Science Foundation. The one-month long summer school brought together graduate students and young scientists with specialists in arctic oceanography and climate to convey to a new generation of scientists the opportunities and challenges of arctic climate observations and modeling. Young scientists gained hands-on experience during the field campaign and learned about key issues in arctic climate from observational, diagnostic, and modeling perspectives. The summer school consisted of background lectures, participation in fieldwork and mini-projects. The mini-projects were performed in collaboration with summer school instructors and members of the expedition. Key topics covered in the lectures included: - arctic climate: key characteristics and processes; - physical processes in the Arctic Ocean; - sea ice and the Arctic Ocean; - trace gases, aerosols, and chemistry: importance for climate changes; - feedbacks in the arctic system (e.g., surface albedo, clouds, water vapor, circulation); - arctic climate variations: past, ongoing, and projected; - global climate models: an overview. An outreach specialist from the Miami Science Museum was writing a blog from the icebreaker with some very impressive statistics (results as of January 1, 2014): Total number of blog posts: 176 Blog posts written/contributed by scientists: 42 Blog views: 22,684 Comments: 1,215 Number of countries who viewed the blog: 89 (on 6 continents) The 33-day long NABOS expedition started on August 22, 2013 from Kirkenes, Norway. The vessel ("Akademik Fedorov") returned to Kirkenes on September 23, 2013. In our presentation we will try to convey the spirit of learning and excitement of the students during the expedition and the summer school.

Empowering High School Students in Scientific Careers: Developing Statewide Partnerships

NASA Astrophysics Data System (ADS)

Aguilar, C.; Swartz, D.

2008-05-01

Center for Multiscale Modeling of Atmospheric Processes (CMMAP) is a National Science Foundation Science and Technology Center focused on improving the representation of cloud processes in climate models. The Center is divided into three sections including Knowledge Transfer, Research, and Education and Diversity. The Science Education and Diversity mission is to educate and train people with diverse backgrounds in Climate and Earth System Science by enhancing teaching and learning and disseminating science results through multiple media. CMMAP is partnering with two local school districts to host an annual global climate conferences for high school students. The 2008 Colorado Global Climate Conference seeks "To educate students on global and local climate issues and empower them to se their knowledge." The conference is sponsored by CMMAP, The Governor's Energy Office, Poudre School District, Thompson School District, Clif Bar, and Ben and Jerry's Scoop Shop of Fort Collins. The conference seeks to inspire students to pursue future education and careers in science fields. Following an opening welcome from the Governor's Energy Office, Keynote Piers Sellers will discuss his experiences as an atmospheric scientist and NASA astronaut. Students will then attend 3 out of 16 breakout sessions including such sessions as "Hot poems, Cool Paintings, and the treasures of Antiquity of Climate Change", "Mitigation vs Adaptation", "Bigfoot Walks(What Size is our carbon footprint?)" "The Wedges: Reduc ing Carbon Emissions", and "We the People: Climate and Culture of Climate Change" to name a few. Using The Governor's High School Conference on the Environment sponsored by the Wisconsin Center for Environmental Education as a model we are developing statewide partnerships to bring high school students together to look at global climate issues that will impact their future and of which they can be part of the solution through their education and career paths. In addition to attending breakout sessions, students will participate in a Learning Fair where over 100 demonstrations and hands on experiments will be available from everything to "Making a Cloud in a Bottle" to "Making a Difference One Tea Bag at a Time." Students will also bring a poster to showcase their accomplishments in their own schools. The target audience is 400 high school students from across the state of Colorado, specifically targeting underserved populations such as students from rural areas, minority populations and students that are eligible for free and reduced lunch.

Using Computers in Relation to Learning Climate in CLIL Method

ERIC Educational Resources Information Center

Binterová, Helena; Komínková, Olga

2013-01-01

The main purpose of the work is to present a successful implementation of CLIL method in Mathematics lessons in elementary schools. Nowadays at all types of schools (elementary schools, high schools and universities) all over the world every school subject tends to be taught in a foreign language. In 2003, a document called Action plan for…

Classroom Learning Environment & Student Motivational Differences between Exemplary, Recognized, & Acceptable Urban Middle Level Schools

ERIC Educational Resources Information Center

Waxman, Hersh C.; Garcia, Andres; Read, Lisa L.

2008-01-01

One of the essential principles for improving middle grade education is to establish a safe and healthy school environment (Jackson & Davis, 2000; Price & Waxman, 2005). The overall quality of the school climate or school environment has been argued to be one of the central problems of urban schools (Waxman & Huang, 1997). Several…

Minority Pre-service Teachers' and Faculty Training on Climate Change Education in Delaware State University

NASA Astrophysics Data System (ADS)

Ozbay, G.; Fox-Lykens, R.; Veron, D. E.; Rogers, M.; Merrill, J.; Harcourt, P.; Mead, H.

2015-12-01

Delaware State University is working toward infusing undergraduate education with climate change science and enhancing the climate change learning content of pre-service teacher preparation programs as part of the MADE-CLEAR project (www.madeclear.org). Faculty development workshops have been conducted to prepare and educate a cadre of faculty from different disciplines in global climate science literacy. Following the workshops, the faculty participants have integrated climate literacy tenets into their existing curriculum. Follow up meetings have helped the faculty members to use specific content in their curriculum such as greenhouse gases, atmospheric CO2, sea level rise, etc. Additional training provided to the faculty participants in pedagogical methods of climate change instruction to identify common misconceptions and barriers to student understanding. Some pre-service teachers were engaged in summer internships and learned how to become messenger of climate change science by the state parks staff during the summer. Workshops were offered to other pre-service teachers to teach them specific climate change topics with enhanced hands-on laboratory activities. The participants were provided examples of lesson plans and guided to develop their own lesson plans and present them. Various pedagogical methods have been explored for teaching climate change content to the participants. The pre-service teachers found the climate content very challenging and confusing. Training activities were modified to focus on targeted topics and modeling of pedagogical techniques for the faculty and pre-service teachers. Program evaluation confirms that the workshop participant show improved understanding of the workshop materials by the participants if they were introduced few climate topics. Learning how to use hands-on learning tools and preparing lesson plans are two of the challenges successfully implemented by the pre-service teachers. Our next activity includes pre-service teachers to use their lesson plans to teach the climate change content in the middle school science classes. This will mutually help the middle school science teachers' to learn and use the materials provided by the pre-service teachers and also pre-service teachers' to improve their teaching skills on climate change content.

Show Me the Evidence: How a Unit Challenge Can Support Middle School Teachers and Students in Investigating Climate Change Using Real-World Data and Science Practices

NASA Astrophysics Data System (ADS)

Gochis, E. E.; Tubman, S.; Grazul, K.; Bluth, G.; Huntoon, J. E.

2017-12-01

Michigan Science Teaching and Assessment Reform (Mi-STAR) is developing an NGSS-aligned integrated science middle school curriculum and associated teacher professional learning program that addresses all performance expectations for the 6-8 grade-band. The Mi-STAR instructional model is a unit- and lesson-level model that scaffolds students in using science practices to investigate scientific phenomena and apply engineering principles to address a real-world challenge. Mi-STAR has developed an 8th grade unit on climate change based on the Mi-STAR instructional model and NGSS performance expectations. The unit was developed in collaboration with Michigan teachers, climate scientists, and curriculum developers. The unit puts students in the role of advisers to local officials who need an evidence-based explanation of climate change and recommendations about community-based actions to address it. Students discover puzzling signs of global climate change, ask questions about these signs, and engage in a series of investigations using simulations and real data to develop scientific models for the mechanisms of climate change. Students use their models as the basis for evidence-based arguments about the causes and impacts of climate change and employ engineering practices to propose local actions in their community to address climate change. Dedicated professional learning supports teachers before and during implementation of the unit. Before implementing the unit, all teachers complete an online self-paced "unit primer" during which they assume the role of their students as they are introduced to the unit challenge. During this experience, teachers experience science as a practice by using real data and simulations to develop a model of the causes of climate change, just as their students will later do. During unit implementation, teachers are part of a professional learning community led by a teacher facilitator in their local area or school. This professional learning community serves as a resource both for implementing student-directed pedagogy and for the development of content knowledge. Eight teachers pilot tested the unit with more than 500 students in spring 2017, and teachers who participated in the first professional learning cohort are currently implementing the unit around Michigan.

Prescribing Proficiency: The Intersection of Teacher, Students and a Mandated Reading Program in One Elementary School Classroom in the Climate of High-Stakes Testing

ERIC Educational Resources Information Center

Bien, Andrea Caroline

2013-01-01

This dissertation addresses questions about the impact and consequences of current school reforms by examining how mandated packaged reading programs contribute to a commodification of knowledge that is changing conceptualizations of literacy, teaching, and learning. Grounded in cultural-historical theories of literacy and learning, this work…

A First Look at the 5Essentials in Illinois Schools. Research Report

ERIC Educational Resources Information Center

Klugman, Joshua; Gordon, Molly F.; Sebring, Penny Bender; Sporte, Susan E.

2015-01-01

In the first comprehensive analysis of Illinois' statewide survey of school climate and learning conditions, this report finds systematic differences among schools in the degree to which students and teachers report strength in the five essential supports. Previous University of Chicago Consortium on Chicago School Research (UChicago CCSR)…

An Urban School Leader's Approach to School Improvement: Toward Contextually Responsive Leadership

ERIC Educational Resources Information Center

Reed, Latish C.; Swaminathan, Raji

2016-01-01

This case study examines the leadership practices and actions of an urban high school principal who faced many challenges, but worked diligently to improve student achievement and school climate over a 3-year period. Significant improvements were made by using elements of Distributed Leadership, Professional Learning Communities, and Social…

The School Counsellor: An Essential Partner in Today's Coordinated School Health Climate

ERIC Educational Resources Information Center

Henry, Jean; McNab, Warren; Coker, J. Kelly

2005-01-01

Youth today face many health, educational, and social challenges not experienced at such epidemic levels by previous generations of young people. By providing collaborative, comprehensive services that address student needs and promote learning and healthy development, a coordinated school health team can help students succeed in school, as well…

The Perception of Bullying among School Administrators: A Case Study

ERIC Educational Resources Information Center

Nieves, Yvette

2017-01-01

This research study examined the perspective of school administrators on the issue of bullying. Bullying behavior is an on-going issue in education that continues to plague educational communities. School administrators are responsible for fostering positive school climates conducive to teaching and learning. There was a gap in the literature…

A Validation Study of the What's My School Mindset? Survey

ERIC Educational Resources Information Center

Hanson, Janet; Bangert, Arthur; Ruff, William

2016-01-01

The What's My School Mindset? (WMSM) survey is purported to operationalize teachers' beliefs of their school's ability to help all children learn and grow. In today's data driven educational climate it is important to select a reliable instrument for collecting teacher perceptions about their school culture. Accurate data is necessary to support…

The Challenges and Success of Implementing Climate Studies Lessons for Pre-Professional Teachers at a Small Historically Black College to Engage Student Teaching of Science Pedagogy and Content Skill Based Learning.

NASA Astrophysics Data System (ADS)

Arnold, J.; Wider-Lewis, F.; Miller-Jenkins, A.

2017-12-01

This poster is a description of the challenges and success of implementing climate studies lessons for pre-service teachers to engage student teaching pedagogy and content skill based learning. Edward Waters College is a historical black college with an elementary education teacher program focused on urban elementary school teaching and learning. Pre-Service Elementary Educator Students often have difficulty with science and mathematics content and pedagogy. This poster will highlight the barriers and successes of using climate studies lessons to develop and enhance pre-service teachers' knowledge of elementary science principles particularly related to climate studies, physical and earth space science.

A Case Study of a Southern California Elementary School District's Comprehensive School Safety Plan: Experiences and Perceptions of School Leaders and Teachers

ERIC Educational Resources Information Center

Favila, Marisela

2013-01-01

For children to be successful, schools must provide a safe and secure environment in which teachers can teach and students can learn (Skiba & Sprague, 2008). In California, state regulations require that schools maintain an appropriate school climate on campus, in classrooms, and at school sponsored events (California Education Code 35294).…

Finding Safety in Small Numbers.

ERIC Educational Resources Information Center

McPartland, James; Jordan, Will; Legters, Nettie; Balfanz, Robert

1997-01-01

A large Baltimore high school has shown how personalizing relationships and focusing the curriculum can turn around an unsafe school and create a climate conducive to learning. The school adopted the Talent Development model, which created six smaller units or academies. Instead of suspending or transferring ill-behaved students, Patterson…

Alpbach Summer School - a unique learning experience

NASA Astrophysics Data System (ADS)

Kern, K.; Aulinas, J.; Clifford, D.; Krejci, D.; Topham, R.

2011-12-01

The Alpbach Summer School is a ten-day program that provides a unique opportunity for young european science and engineering students, both undergraduate and graduate, to learn how to approach the entire design process of a space mission. The theme of the 2010 Summer School was "New Space Missions to Understand Climate Change", a current, challenging, very broad and complex topic. The program was established more than 35 years ago and is organised in two interrelated parts: a series of lectures held by renowned experts in the field (in the case of this specific year, climate change and space engineering experts) that provides a technical and scientific background for the workshops that follow, the core of the Summer School. For the workshops the students are split into four international, interdisciplinary teams of about 15 students. In 2010 every team had to complete a number of tasks, four in total: (1) identify climate change research gaps and design a space mission that has not yet been flown or proposed, (2) define the science objectives and requirements of the mission, (3) design a spacecraft that meets the mission requirements, which includes spacecraft design and construction, payload definition, orbit calculations, but also the satellite launch, operation and mission costs and (4) write up a short mission proposal and present the results to an expert review panel. Achieving these tasks in only a few days in a multicultural, interdisciplinary team represents a major challenge for all participants and provides an excellent practical learning experience. Over the course of the program, students do not just learn facts about climate change and space engineering, but scientists also learn from engineers and engineers from scientists. The participants have to deepen their knowledge in an often unfamiliar field, develop organisational and team-work skills and work under pressure. Moreover, teams are supported by team and roving tutors and get the opportunity to meet and learn from international experts. This presentation will provide an overview of the Alpbach Summer School program from a student's perspective. The different stages of this unique and enriching experience will be covered. Special attention will be paid to the workshops, which, as mentioned above, are the core of the Alpbach Summer School. During these intense workshops, participants work towards the proposed goals resulting in the design proposal of a space mission. The Alpbach Summer School is organised by FFG and co-sponsored by ESA, ISSI and the national space authorities of ESA member and cooperating states.

Project-based Modules from two STEM Learning Teams in Howard County, Maryland

NASA Astrophysics Data System (ADS)

Griffiths, L. N.; Bradley, L. A.

2011-12-01

In 2009, two Maryland school districts-Howard County Public School System and Prince George's County Public Schools-and the Goddard Space Flight Center of the National Aeronautics and Space Administration (NASA) partnered with the National Commission on Teaching and America's Future (NCTAF) to develop NASA 21st Century Learning Studios. In 2010, NCTAF expanded the program to include Learning Studios at two additional Maryland school districts (Anne Arundel County Public Schools and Baltimore County Public Schools), partnering with the United States Naval Academy and the University of Maryland. Overall, the focus of these Learning Studios is to combine the expertise of scientists with that of educators through Learning Teams to improve teaching and learning in science, technology, engineering and mathematics (STEM) fields, while delivering project-based modules to be implemented in other school districts. The focus of this paper is to summarize the experience and outcomes from two Learning Teams from the Howard County Public School System. STEM Learning Teams were established at Centennial High School and Hammond High School in Maryland. Each Team worked together for two years to create interdisciplinary units of study for their students with a focus on Earth Science. To maximize student interest, teachers worked with NASA scientists five times a year to develop four learning modules using practical examples and incorporating real scientific observations. A weathering and erosion module challenges students to collect appropriate field observations and determine erosion and deposition rates in a nearby lake. A plate tectonics module requires students to use measures of plate motion from the National Oceanic and Atmospheric Administration to estimate rates of convergence in southern Asia. A third module for lessons in climate change requires students to find open source climate data, determine changes in the atmosphere and estimate anthropogenic impacts. A follow-up exercise challenges students to find ways to alter their schools, homes and individual activities for reducing carbon footprints. A fourth module requires students to model solar and lunar eclipses in different ways, and to combine this understanding with the personal experiences of a NASA scientist. The intended outcomes from an implementation of these four modules are: to present real-world practical problems to be solved by the students; to expose students to areas of active research; and to expose students to careers in STEM. Such experience should improve their preparations for new opportunities after high school.

The climate visualizer: Sense-making through scientific visualization

NASA Astrophysics Data System (ADS)

Gordin, Douglas N.; Polman, Joseph L.; Pea, Roy D.

1994-12-01

This paper describes the design of a learning environment, called the Climate Visualizer, intended to facilitate scientific sense-making in high school classrooms by providing students the ability to craft, inspect, and annotate scientific visualizations. The theoretical back-ground for our design presents a view of learning as acquiring and critiquing cultural practices and stresses the need for students to appropriate the social and material aspects of practice when learning an area. This is followed by a description of the design of the Climate Visualizer, including detailed accounts of its provision of spatial and temporal context and the quantitative and visual representations it employs. A broader context is then explored by describing its integration into the high school science classroom. This discussion explores how visualizations can promote the creation of scientific theories, especially in conjunction with the Collaboratory Notebook, an embedded environment for creating and critiquing scientific theories and visualizations. Finally, we discuss the design trade-offs we have made in light of our theoretical orientation, and our hopes for further progress.

The Promise of Using Energy Tracking Data to Promote Home-School Connections and Youth Agency in Climate Action

NASA Astrophysics Data System (ADS)

Walsh, E.; Jenkins, D.; Cordero, E.

2015-12-01

Formal classroom learning experiences that support energy conservation behaviors outside the classroom necessarily must bridge students' home and school lives, as knowledge and practice learned in the classroom is implemented outside of school. To this end, we study the impact of the Green Ninja Energy Tracker curriculum, which uses students' home energy data in the classroom to promote engagement in climate change and conservation behaviors. Data is drawn from class observations, a focus group, and pre- and post- surveys of a pilot implementation of this curriculum in a diverse 12th-grade Earth Science classroom at an alternative school. We investigate what factors contributed to student engagement in learning about and participating in energy conservation behaviors. We found that students were engaged by the immediacy of tracking their energy use in near-real time, and were motivated by the economic benefits experienced as a direct result of changing their behaviors. In addition, students reported discussing and problem-solving energy use with their families, and surfaced considerations that informed which energy behaviors were implemented and why. Students also reported high levels of personal agency in taking action on climate change, but were pessimistic about the likelihood of society as a whole taking action. We suggest that this pilot demonstrates that potential power of connecting students' home and school lives through energy tracker software as a catalyst for developing scientific expertise and engagement, and supporting energy conservation behaviors.

Schools and Social Emotional Learning

ERIC Educational Resources Information Center

Usakli, Hakan; Ekici, Kubra

2018-01-01

In classrooms, the students spend lots of time by interacting each other. This paper debates the role of importance of the schools for rising students' social relations. Interaction between students is inevitable. That is because, they are together in projects, class discussion and peer working groups. Multicultural diverse school climates demand…

In Defense of Snow Days

ERIC Educational Resources Information Center

Goodman, Joshua

2015-01-01

In snowy climates, school superintendents must frequently decide whether an impending storm warrants closing schools for the day. Concerns about student and teacher safety must be weighed against the loss of student learning time, along with state requirements for days of instruction and the cost and inconvenience of extending the school year into…

(Climate) Change in young people's minds - From categories towards interconnections between the anthroposphere and natural sphere.

PubMed

Körfgen, Annemarie; Keller, Lars; Kuthe, Alina; Oberrauch, Anna; Stötter, Hans

2017-02-15

The grand challenges of the 21st century will increasingly require societies to reconsider the pathways taken thus far. Engagement with climate change is of ever-growing importance to young people. They will be confronted with the effects of climate change throughout their entire lives and, as future decision-makers, they will vitally shape societal developments. Education will thus play a crucial role in the transformation to a sustainable society. In terms of awareness-raising, an important first step in preparing young people for the challenges of the 21st century is to understand what content is connected with climate change. As complex challenges, such as climate change, demand ways of thinking that go beyond categories, interconnections between the anthroposphere and the natural sphere have to be taken into consideration. This study provides an insight into the questions and topics young people develop whilst becoming involved in climate change in an in-school learning setting and in an out-of-school learning setting (a high mountain environment). The analysis focuses on the question of in which spheres students predominantly make their thematic choices and how far the interconnections between different spheres are formed. Our results show that the choice of the learning setting influences the topics students connect with climate change. Interconnections between sub-spheres of the anthroposphere and natural sphere are made only occasionally. These findings serve as a basis for reconsidering the content and foundation of climate change communication with young people. We recommend that climate change educational programmes should include phases that allow the following: a) involvement with climate change issues related to single spheres in the first phase, and b) consideration of the interconnections between spheres when becoming involved with climate change issues in the second phase. As the educational setting can considerably influence the focus of the learning process, it should be chosen thoughtfully. Copyright © 2016 Elsevier B.V. All rights reserved.

Mind the Gap: Organizational Learning and Improvement in an Underperforming Urban System

ERIC Educational Resources Information Center

Finnigan, Kara S.; Daly, Alan J.

2012-01-01

Drawing on the theoretical lens of organizational learning, and utilizing the methodological approaches of social network and case-study analyses, our exploratory study examines whether schools under sanction exhibit the necessary processes, relationships, and social climates that support organizational learning and improvement. We also…

Bringing Global Climate Change Education to Alabama Middle School and High School Classrooms

NASA Astrophysics Data System (ADS)

Lee, M.; Mitra, C.; Percival, E.; Thomas, A.; Lucy, T.; Hickman, E.; Cox, J.; Chaudhury, S. R.; Rodger, C.

2013-12-01

A NASA-funded Innovations in Climate Education (NICE) Program has been launched in Alabama to improve high school and middle school education in climate change science. The overarching goal is to generate a better informed public that understands the consequences of climate change and can contribute to sound decision making on related issues. Inquiry based NICE modules have been incorporated into the existing course of study for 9-12 grade biology, chemistry, and physics classes. In addition, new modules in three major content areas (earth and space science, physical science, and biological science) have been introduced to selected 6-8 grade science teachers in the summer of 2013. The NICE modules employ five E's of the learning cycle: Engage, Explore, Explain, Extend and Evaluate. Modules learning activities include field data collection, laboratory measurements, and data visualization and interpretation. Teachers are trained in the use of these modules for their classroom through unique partnership with Alabama Science in Motion (ASIM) and the Alabama Math Science Technology Initiative (AMSTI). Certified AMSTI teachers attend summer professional development workshops taught by ASIM and AMSTI specialists to learn to use NICE modules. During the school year, the specialists in turn deliver the needed equipment to conduct NICE classroom exercises and serve as an in-classroom resource for teachers and their students. Scientists are partnered with learning and teaching specialists and lead teachers to implement and test efficacy of instructional materials, models, and NASA data used in classroom. The assessment by professional evaluators after the development of the modules and the training of teachers indicates that the modules are complete, clear, and user-friendly. The overall teacher satisfaction from the teacher training was 4.88/5.00. After completing the module teacher training, the teachers reported a strong agreement that the content developed in the NICE modules should be included in the Alabama secondary curriculum. Eventually, the NICE program has the potential to reach over 200,000 students when the modules are fully implemented in every school in the state of Alabama. The project can give these students access to expertise and equipment, thereby strengthening the connections between the universities, state education administrators, and the community.

Climate Change Professional Development: Design, Implementation, and Initial Outcomes on Teacher Learning, Practice, and Student Beliefs

NASA Astrophysics Data System (ADS)

Shea, Nicole A.; Mouza, Chrystalla; Drewes, Andrea

2016-04-01

In this work, we present the design, implementation, and initial outcomes of the Climate Academy, a hybrid professional development program delivered through a combination of face-to-face and online interactions, intended to prepare formal and informal science teachers (grades 5-16) in teaching about climate change. The Climate Academy was designed around core elements of successful environmental professional development programs and aligned with practices advocated in benchmarked science standards. Data were collected from multiple sources including observations of professional development events, participants' reflections on their learning, and collection of instructional units designed during the Academy. Data were also collected from a focal case study teacher in a middle school setting. Case study data included classroom observations, teacher interviews, and student beliefs toward climate change. Results indicated that the Climate Academy fostered increased learning among participants of both climate science content and pedagogical strategies for teaching about climate change. Additionally, results indicated that participants applied their new learning in the design of climate change instructional units. Finally, results from the case study indicated positive impacts on student beliefs and greater awareness about climate change. Results have implications for the design of professional development programs on climate change, a topic included for the first time in national standards.

Teen Advocates for Community and Environmental Sustainability

NASA Astrophysics Data System (ADS)

Wunar, B.

2017-12-01

The Museum of Science and Industry, Chicago (MSI) is in the early stages of a NOAA supported Environmental Literacy Grant project that aims to engage high school age youth in the exploration of climate and Earth systems science. Participating youth are positioned as teen advocates for establishing resilient communities in the Midwest. The project utilizes a variety of resources, including NOAA Science On a Sphere® (SOS) technology and datasets, Great Lakes and local climate assets, and local municipal resiliency planning guides to develop museum-based youth programming. Teen participants in the project will share their learning through regular facilitated interactions with public visitors in the Museum and will bring learning experiences to Chicago Public Library sites throughout the city's neighborhoods. Project content will also be adapted for use in 100+ after-school science clubs to engage younger students from diverse communities across the Chicago area. Current strategies for supporting teen facilitation of public experiences, linkages to out of school time and summer learning programs, and connections to local resiliency planning agencies will be explored.

Experiential-Based Climate Change Education: Fostering Students' Knowledge and Motivation towards the Environment

ERIC Educational Resources Information Center

Karpudewan, Mageswary; Mohd Ali Khan, Nur Sabrina

2017-01-01

Climate change is one of the most important environmental issues affecting our society today and we need to educate the citizens about the impact on human lives. An attempt was made to integrate experiential-based climate change education into the teaching and learning of secondary school Biology lessons on the topic of "Endangered…

The Effectiveness of the Geospatial Curriculum Approach on Urban Middle-Level Students' Climate Change Understandings

ERIC Educational Resources Information Center

Bodzin, Alec M.; Fu, Qiong

2014-01-01

Climate change science is a challenging topic for student learning. This quantitative study examined the effectiveness of a geospatial curriculum approach to promote climate change science understandings in an urban school district with eighth-grade students and investigated whether teacher- and student-level factors accounted for students'…

Role of institutional climate in fostering diversity in biomedical research workforce: a case study.

PubMed

Butts, Gary C; Hurd, Yasmin; Palermo, Ann-Gel S; Delbrune, Denise; Saran, Suman; Zony, Chati; Krulwich, Terry A

2012-01-01

This article reviews the barriers to diversity in biomedical research and describes the evolution of efforts to address climate issues to enhance the ability to attract, retain, and develop underrepresented minorities, whose underrepresentation is found both in science and medicine, in the graduate-school biomedical research doctoral programs (PhD and MD/PhD) at Mount Sinai School of Medicine. We also describe the potential beneficial impact of having a climate that supports diversity and inclusion in the biomedical research workforce. The Mount Sinai School of Medicine diversity-climate efforts are discussed as part of a comprehensive plan to increase diversity in all institutional programs: PhD, MD/PhD, and MD, and at the residency, postdoctoral fellow, and faculty levels. Lessons learned from 4 decades of targeted programs and activities at the Mount Sinai School of Medicine may be of value to other institutions interested in improving diversity in the biomedical science and academic medicine workforce. © 2012 Mount Sinai School of Medicine.

gidakiimanaaniwiagamig, an informal science camp for mixed age American Indian students

NASA Astrophysics Data System (ADS)

Ito, E.; Kowalczak, C.; Dalbotten, D. M.; Pellerin, H.; Greensky, L.

2016-12-01

Gidakiimanaaniwiagamig('Our Earth Lodge' in Ojibwe; gidaa, for short) camp program at Fond du Lac Reservation was started in 1989 by Pellerin and Greensky to help reservation students stay in school and graduate from middle school. As more students successfully completed middle school, the purpose of the program evolved to help students graduate from high school and go to college. Starting in 2003, various NSF awards funded the camps and STEM focus became explicit. The current gidaa camps are funded by NASA (Kowalczak) and NSF (Ito & Dalbotten) funds and focus on learning about the effect of climate change on the reservation and treaty lands. From its inception, the gidaa camps served a mixed age group of students (K through 12) who were mentored by elders, local school teachers and college students (camp alumni). A few university scientists provided support and acted as resources. The inclusion of students of all ages and their families is a deliberate one, based on the American Indian learning practice that "everyone teaches and everyone learns". This approach supports the development of the whole person and not just increased climate or general STEM literacy. Evidence for the success of this approach can be seen in 100% high school graduation rate of students who have been with the camp for more than a few years even if they did not attend every camp. Currently, weekend gidaa camps meet 6 times during the academic year with an additional week-long summer camp. Reservation Natural Resource managers share their concerns about the effect of climate change and what they already see and how they try to mitigate or adjust to these effects. Students thus immediately grasp the relevance of climate change to their lives while simultaneously being introduced to the work being done to help protect their land. Students are divided into small color groups (each group is of mixed ages) and group members help each other learn new concepts and vocabulary assisted by 1 or 2 mentors (teachers and college students). Another activity that occurs at every camp is a field experience, whether to observe and record phenology such as when sugar maple sap is rising or when wild rice is ready for harvesting, or to learn to identify trees and birds. Observations are compared to what the elders remember of when these events occurred as well as historical climatology.

The NASA Global Climate Change Education Project: An Integrated Effort to Improve the Teaching and Learning about Climate Change (Invited)

NASA Astrophysics Data System (ADS)

Chambers, L. H.; Pippin, M. R.; Welch, S.; Spruill, K.; Matthews, M. J.; Person, C.

2010-12-01

The NASA Global Climate Change Education (GCCE) Project, initiated in 2008, seeks to: - improve the teaching and learning about global climate change in elementary and secondary schools, on college campuses, and through lifelong learning; - increase the number of people, particularly high school and undergraduate students, using NASA Earth observation data, Earth system models, and/or simulations to investigate and analyze global climate change issues; - increase the number of undergraduate students prepared for employment and/or to enter graduate school in technical fields relevant to global climate change. Through an annual solicitation, proposals are requested for projects that address these goals using a variety of approaches. These include using NASA Earth system data, interactive models and/or simulations; providing research experiences for undergraduate or community college students, or for pre- or in-service teachers; or creating long-term teacher professional development experiences. To date, 57 projects have been funded to pursue these goals (22 in 2008, 18 in 2009, and 17 in 2010), each for a 2-3 year period. The vast majority of awards address either teacher professional development, or use of data, models, or simulations; only 7 awards have been made for research experiences. NASA, with assistance from the Virginia Space Grant Consortium, is working to develop these awardees into a synergistic community that works together to maximize its impact. This paper will present examples of collaborations that are evolving within this developing community. It will also introduce the opportunities available in fiscal year 2011, when a change in emphasis is expected for the project as it moves within the NASA Office of Education Minority University Research and Education Program (MUREP).

Effect of the good school toolkit on school staff mental health, sense of job satisfaction and perceptions of school climate: Secondary analysis of a cluster randomised trial.

PubMed

Kayiwa, Joshua; Clarke, Kelly; Knight, Louise; Allen, Elizabeth; Walakira, Eddy; Namy, Sophie; Merrill, Katherine G; Naker, Dipak; Devries, Karen

2017-08-01

The Good School Toolkit, a complex behavioural intervention delivered in Ugandan primary schools, has been shown to reduce school staff-perpetrated physical violence against students. We aimed to assess the effect of this intervention on staff members' mental health, sense of job satisfaction and perception of school climate. We analysed data from a cluster-randomised trial administered in 42 primary schools in Luwero district, Uganda. The trial was comprised of cross-sectional baseline (June/July 2012) and endline (June/July 2014) surveys among staff and students. Twenty-one schools were randomly selected to receive the Toolkit, whilst 21 schools constituted a wait-listed control group. We generated composite measures to assess staff members' perceptions of the school climate and job satisfaction. The trial is registered at clinicaltrials.gov (NCT01678846). No schools dropped out of the study and all 591 staff members who completed the endline survey were included in the analysis. Staff in schools receiving the Toolkit had more positive perspectives of their school climate compared to staff in control schools (difference in mean scores 2.19, 95% Confidence Interval 0.92, 3.39). We did not find any significant differences for job satisfaction and mental health. In conclusion, interventions like the Good School Toolkit that reduce physical violence by school staff against students can improve staff perceptions of the school climate, and could help to build more positive working and learning environments in Ugandan schools. Copyright © 2017 Elsevier Inc. All rights reserved.

Promoting children's ethical development through social and emotional learning.

PubMed

Devaney, Elizabeth; O'Brien, Mary Utne; Tavegia, Mary; Resnik, Hank

2005-01-01

In today's climate of increased emphasis on measuring achievement through high-stakes testing, academic subjects are too often divorced from the social context in which they are taught. We know that learning is a social process. In fact, many educators and other youth development practitioners recognize that social, emotional, and ethical development cannot be ignored in the name of better academic preparation, especially in the face of data showing that students are more disengaged than ever before. Social and emotional learning (SEL) offers educators and other youth development personnel a framework for addressing students' social and emotional needs in systematic way. SEL is the process of acquiring the skills to recognize and manage emotions, develop caring and concern for others, establish positive relationships, make responsible decisions, and handle challenging situations effectively. Research has shown that SEL has an impact on every aspect of children's development: their health, ethical development, citizenship, academic learning, and motivation to achieve. This chapter profiles one school in Illinois that has been implementing SEL programming for a number of years. The authors provide evidence of the impact of SEL on school climate, student behavior, and attitudes. Ultimately the authors see this as fostering the kind of understanding of the larger world that leads young people to make ethical choices. They propose that the lessons learned are applicable to a wide variety of settings, including other schools, after-school programs, and summer camps.

Direct Instruction and Guided Practice Matter in Conflict Resolution and Social-Emotional Learning

ERIC Educational Resources Information Center

DeVoogd, Karen; Lane-Garon, Pamela; Kralowec, Charles A.

2016-01-01

Seven schools in an economically challenged area of an urban school district in central California implemented mentored peer mediation programs under the guidance of a university-K-12 partnership project, Mediator Mentors. Individual student outcomes for social-cognitive dispositions, perceptions of school climate, conflict strategy choices, and…

Linking the Organizational Health of Middle Grades Schools to Student Achievement

ERIC Educational Resources Information Center

Roney, Kathleen; Coleman, Howard; Schlichting, Kathleen A.

2007-01-01

The purpose of this study was to examine the relationship between student reading achievement and the organizational health of five middle grades schools in North Carolina. The theoretical framework was based upon Hoy and Feldman's definition of organizational health, which links healthy school climates to improved learning environments and…

Teachers' Expectations and Self-Efficacy for Working with Bullies and Victims

ERIC Educational Resources Information Center

Skinner, Ann T.; Babinski, Leslie M.; Gifford, Elizabeth J.

2014-01-01

Bullying is a significant concern in schools, and both bullies and victims are at risk for negative outcomes. In this study, 239 sixth-grade teachers completed questionnaires about their perceptions of four components of school climate: high-risk student behaviors, school-wide barriers to learning, principal support, and cooperation among…

Bully Proofing: What One District Learned about Improving School Climate.

ERIC Educational Resources Information Center

Berkey, Leonard G.; Keyes, Barbara J.; Longhurst, James E.

2001-01-01

Collaborating with school officials, a group of concerned parents implemented a bully-proofing program throughout their school district. After two years, the results are encouraging; it was received with enthusiasm at the elementary level. Further study will be needed to determine how these principles might be applied at the secondary level. (MKA)

A Community Prevention Approach to Peaceful Schools: Application of Wakanheza

ERIC Educational Resources Information Center

Erickson, Christina L.; Lee, Serita; Mattaini, Mark A.

2009-01-01

Schools have long recognized the importance of creating climates that are peaceful, laying the groundwork for good student academic learning. This article explores the work of a large urban school district as it applies a community violence prevention model developed by the local county public health department to create peaceful communities.…

Quantitative and Qualitative Perspectives on Teacher Attitudes: The Third Year.

ERIC Educational Resources Information Center

Ruscoe, Gordon C.; Whitford, Betty Lou

Since 1988, teacher surveys and interviews have been conducted in the 24 professional development schools (PDS) in Jefferson County (Kentucky) Public Schools to document teachers' attitudes toward efficacy and empowerment and toward their schools' learning climate. The 1990-1991 survey results show that teachers seem to have positive opinions of…

The Problems Public Schools Face: High School Misbehaviour in 1990 and 2002

ERIC Educational Resources Information Center

Fish, Reva M.; Finn, Kristin V.; Finn, Jeremy D.

2011-01-01

Misbehaviour in high school impacts learning and instruction in the classroom as well as the educational climate of the institution. In this report, changes in administrators', teachers', and students' reports of misbehaviour between 1990 and 2002 were examined using two national US databases. There was little change in administrators'…

Profiles of Adolescents' Perceptions of Democratic Classroom Climate and Students' Influence: The Effect of School and Community Contexts.

PubMed

Reichert, Frank; Chen, Jiaxin; Torney-Purta, Judith

2018-06-01

Students' learning experiences and outcomes are shaped by school and classroom contexts. Many studies have shown how an open, democratic classroom climate relates to learning in the citizenship domain and helps nurture active and engaged citizens. However, little research has been undertaken to look at how such a favorable classroom climate may work together with broader school factors. The current study examines data from 14,292 Nordic eighth graders (51% female) who had participated in the International Civic and Citizenship Education Study in 2009, as well as contextual data from 5,657 teachers and 618 principals. Latent class analysis identifies profiles of students' perceptions of school context, which are further examined with respect to the contextual correlates at the school level using two-level fixed effects multinomial regression analyses. Five distinct student profiles are identified and labeled "alienated", "indifferent", "activist", "debater", and "communitarian". Compared to indifferent students, debaters and activists appear more frequently at schools with relatively few social problems; being in the communitarian group is associated with aspects of the wider community. Furthermore, being in one of these three groups (and not in the indifferent group) is more likely when teachers act as role models by engaging in school governance. The results are discussed within the framework of ecological assets and developmental niches for emergent participatory citizenship. The implications are that adults at school could enhance multiple contexts that shape adolescents' developmental niches to nurture active and informed citizens for democracies.

Leadership for Learning: The Relationships between School Context, Principal Leadership and Mediating Variables

ERIC Educational Resources Information Center

Paletta, Angelo; Alivernini, Fabio; Manganelli, Sara

2017-01-01

Purpose: The purpose of this paper is to examine the relationships between the school context, the leadership of the school principal, and a set of process variables related to teachers and the educational climate, which have been shown to mediate the effects of the principal's leadership on schools and students. The authors examined the following…

The Polish Folk High Schools. Occasional Papers in Continuing Education. Number 17.

ERIC Educational Resources Information Center

Kulich, Jindra; Bron-Wojciechowska, Agnieszka

Polish folk high schools are modeled after schools developed in the mid-1850s in Denmark to provide general, non-credit education for young adults in rural areas. The main objectives of the folk high schools are to provide a climate for individual student development and to serve as centers where young adults can learn about their cultural…

Working Together for the Student: What I Learned from Two Years on a Primary School Board in New Zealand.

ERIC Educational Resources Information Center

Dyer, Samuel Coad

1998-01-01

A former board member of a New Zealand primary school describes the country's political climate as radical economic libertarian; contract bidding among schools will soon be required. Elementary schools are child-centered and multicultural, operate year-round, involve the board and community, follow a national curriculum, and have overworked,…

Bullying in Nigerian Secondary Schools: Strategies for Counseling Intervention

ERIC Educational Resources Information Center

Fareo, Dorcas Oluremi

2015-01-01

School bullying is a serious problem for young people in the society and Nigeria at large. It is a threat that no school disregards or dismisses. It can have negative consequences on the general school climate and on the right of students to learn in a safe environment without fear. Bullying can also have negative lifelong consequences both for…

Predictors of Information Technology Integration in Secondary Schools: Evidence from a Large Scale Study of More than 30,000 Students.

PubMed

Hew, Khe Foon; Tan, Cheng Yong

2016-01-01

The present study examined the predictors of information technology (IT) integration in secondary school mathematics lessons. The predictors pertained to IT resource availability in schools, school contextual/institutional variables, accountability pressure faced by schools, subject culture in mathematics, and mathematics teachers' pedagogical beliefs and practices. Data from 32,256 secondary school students from 2,519 schools in 16 developed economies who participated in the Program for International Student Assessment (PISA) 2012 were analyzed using hierarchical linear modeling (HLM). Results showed that after controlling for student-level (gender, prior academic achievement and socioeconomic status) and school-level (class size, number of mathematics teachers) variables, students in schools with more computers per student, with more IT resources, with higher levels of IT curricular expectations, with an explicit policy on the use of IT in mathematics, whose teachers believed in student-centered teaching-learning, and whose teachers provided more problem-solving activities in class reported higher levels of IT integration. On the other hand, students who studied in schools with more positive teacher-related school learning climate, and with more academically demanding parents reported lower levels of IT integration. Student-related school learning climate, principal leadership behaviors, schools' public posting of achievement data, tracking of school's achievement data by administrative authorities, and pedagogical and curricular differentiation in mathematics lessons were not related to levels of IT integration. Put together, the predictors explained a total of 15.90% of the school-level variance in levels of IT integration. In particular, school IT resource availability, and mathematics teachers' pedagogical beliefs and practices stood out as the most important determinants of IT integration in mathematics lessons.

Integrating Media Production By Students Into Climate Change Education: Within and Beyond the Classroom

NASA Astrophysics Data System (ADS)

Rooney-Varga, J. N.; Brisk, A. A.; Grogan, M.; Ledley, T. S.

2012-12-01

Through the Climate Education in an Age of Media (CAM) Project (http://cleanet.org/cced_media/), we have developed approaches to integrate media production by students into climate change education in ways that are engaging, empowering, and can be readily adopted in a wide range of instructional environments. These approaches can be used to overcome many of the challenges that climate change education presents and provide a means to evoke experiential, affective, and social learning pathways. Video production combines many key twenty-first century literacy skills, including content research, writing, an understanding of the power of images and sounds, the ability to use that power, and the ability to manipulate, transform, and distribute digital media. Through collaboration, reflection, and visual expression of concepts, video production facilitates a deeper understanding of material and, potentially, shifts in mental models about climate change. Equally importantly, it provides a means to bridge formal and informal learning by enabling students to educate those beyond the classroom. We have piloted our approach in two intensive summer programs (2011 and 2012) for high school students, during which students learned about climate change science content in lessons that were paired with the production of short media pieces including animations, public service announcements, person-on-the-street interviews, mock trailers, mock news programs, and music videos. Two high school teachers were embedded in the program during the second year, providing feedback and assessment of the feasibility, accessibility, and utility of the approach. The programs culminated with students presenting and discussing their work at public screening events. The media lessons and climate change science content examples used in these programs form the backbone of a toolkit and professional development workshops for middle and high school teachers, in which teachers learn how to incorporate student media-making into their science classes. Here, we share the toolkit, describe the scope and structure of the teacher professional development workshops, and share several of the media products created by YEP participants. The confluence of falling financial and technological barriers to producing media; the need for innovative approaches to meet climate change education challenges; and the potential for media literacy to empower young people to add their voice to the societal discourse about climate change science creates an ideal opportunity for integration of science and media production in education.

Climate Study of the Learning Environment for Faculty, Staff, and Students at a U.S. Dental School: Foundation for Culture Change.

PubMed

Murdoch-Kinch, C A; Duff, R E; Ramaswamy, V; Ester, T V; Sponseller, S A; Seeley, J A

2017-10-01

The aim of this study was to assess the culture and climate for diversity and inclusion and the humanistic learning environment for students, faculty, and staff at the University of Michigan School of Dentistry. From July 2014 to June 2015, two committees of 16 faculty members, staff members, and students, in partnership with trained program evaluators, used a participatory program evaluation (PPE) process to conduct the assessment using key informant interviews, surveys, and focus groups. The topics addressed were humanistic environment, learning environment, diversity and inclusion, microaggressions and bullying, and activities and space. All staff members, all faculty members (both full- and part-time), and all students in all four years were invited to participate in the parallel but distinctive versions of the survey from November 10 to 25, 2014. Response rates for each group were as follows: 50% (318/642) for students, 68% (217/320) for staff, and 40% (147/366) for faculty; numbers responding to individual items varied. Among the respondents, the majority (76% faculty, 67% staff, 80% students) agreed that the environment fostered learning and personal growth and that a humanistic environment was important (97% faculty, 95% staff, 94% students). Many reported having experienced/witnessed a micro-aggression or bullying. Many also reported having "ever had" dissatisfaction with the learning environment (44% faculty, 39% staff, 68% students). The students sought better relationships with the faculty; the staff and faculty members sought opportunities for professional development and mentoring. Recommendations included cultural sensitivity training, courses for interpersonal skills, leadership and team-building efforts, addressing microaggressions and bullying, creating opportunities for collaboration, and increasing diversity of faculty, staff, and students. These recommendations were incorporated into the school's strategic plan. In this study, a utilization-focused PPE process using mixed methods was effective for evaluating the dental school's climate for diversity and inclusion, as well as the learning environment for faculty, staff, and students.

Cool Science: Using Children's Art to Communicate Climate Change (Invited)

NASA Astrophysics Data System (ADS)

Lustick, D. S.; Lohmeier, J.; Chen, R. F.

2013-12-01

Cool Science is a K-12 Climate Change Science Art Competition. Working with teachers, parents, and students, the project aims to identify outstanding works of art by students about climate change and display the art throughout public mass transit. Cool Science has three distinct goals: 1) provide a convenient means for art and science teachers to incorporate climate change into their curriculum, 2) support teacher/student learning about climate change science, and 3) foster informal learning about climate change among people riding mass transit. By efficiently connecting formal and informal learning with one project, Cool Science is an innovative project that expands the way we engage and evaluate students. Using children's artwork to communicate complex scientific issues such as climate change is a powerful learning experience for the artist, teacher, and audience. Last year, Cool Science received nearly 600 entries from students representing 36 teachers from 32 school districts. Six winning entries went on public display with one highlighted each month from January through June. In addition, there were 6 Runner Ups and 12 Honorable Mentions. For the winning students, it is an unforgettable experience to see a nine-foot version of their artwork traveling around the streets on the side of a bus!

Adventure Learning @ Greenland

NASA Astrophysics Data System (ADS)

Miller, B. G.; Cox, C. J.; Hougham, J.; Walden, V. P.; Eitel, K.; Albano, A.

2013-12-01

Teaching the general public and K-12 communities about scientific research has taken on greater importance as climate change increasingly impacts the world we live in. Science researchers and the educational community have a widening responsibility to produce and deliver curriculum and content that is timely, scientifically sound and engaging. To address this challenge, in the summer of 2012 the Adventure Learning @ Greenland (AL@GL) project, a United States' National Science Foundation (NSF) funded initiative, used hands-on and web-based climate science experiences for high school students to promote climate and science literacy. This presentation will report on an innovative approach to education and outreach for environmental science research known as Adventure Learning (AL). The purpose of AL@GL was to engage high school students in the US, and in Greenland, in atmospheric research that is being conducted in the Arctic to enhance climate and science literacy. Climate and science literacy was explored via three fundamental concepts: radiation, the greenhouse effect, and climate vs. weather. Over the course of the project, students in each location engaged in activities and conducted experiments through the use of scientific instrumentation. Students were taught science research principles associated with an atmospheric observatory at Summit Station, Greenland with the objective of connecting climate science in the Arctic to student's local environments. Summit Station is located on the Greenland Ice Sheet [72°N, 38°W, 3200 m] and was the primary location of interest. Approximately 35 students at multiple locations in Idaho, USA, and Greenland participated in the hybrid learning environments as part of this project. The AL@GL project engaged students in an inquiry-based curriculum with content that highlighted a cutting-edge geophysical research initiative at Summit: the Integrated Characterization of Energy, Clouds, Atmospheric state, and Precipitation at Summit (ICECAPS) project (Shupe et al. 2012; http://www.esrl.noaa.gov/psd/arctic/observatories/summit/). ICECAPS is an atmospheric observatory focused on obtaining high temporal resolution measurements of clouds from ground-based remote sensors including radar, lidar, infrared spectra and others. ICECAPS also launches radiosondes twice daily. This large suite of complementary observations are providing an important baseline understanding of cloud and atmospheric conditions over the central Greenland ice sheet and are supporting Arctic climate research on cloud processes and climate model validation. ICECAPS measures parameters that are associated with those identified in student misconceptions, for example, different types of atmospheric radiation, the effect of greenhouse gases, and climate versus weather (see also Haller et al., 2011). Thus, ICECAPS research and the AL@GL project combined to create a learning environment and educational activities that sought to increase climate literacy in high school students as well as communicate important atmospheric research to a broader audience.

Predictors of Information Technology Integration in Secondary Schools: Evidence from a Large Scale Study of More than 30,000 Students

PubMed Central

Hew, Khe Foon; Tan, Cheng Yong

2016-01-01

The present study examined the predictors of information technology (IT) integration in secondary school mathematics lessons. The predictors pertained to IT resource availability in schools, school contextual/institutional variables, accountability pressure faced by schools, subject culture in mathematics, and mathematics teachers’ pedagogical beliefs and practices. Data from 32,256 secondary school students from 2,519 schools in 16 developed economies who participated in the Program for International Student Assessment (PISA) 2012 were analyzed using hierarchical linear modeling (HLM). Results showed that after controlling for student-level (gender, prior academic achievement and socioeconomic status) and school-level (class size, number of mathematics teachers) variables, students in schools with more computers per student, with more IT resources, with higher levels of IT curricular expectations, with an explicit policy on the use of IT in mathematics, whose teachers believed in student-centered teaching-learning, and whose teachers provided more problem-solving activities in class reported higher levels of IT integration. On the other hand, students who studied in schools with more positive teacher-related school learning climate, and with more academically demanding parents reported lower levels of IT integration. Student-related school learning climate, principal leadership behaviors, schools’ public posting of achievement data, tracking of school’s achievement data by administrative authorities, and pedagogical and curricular differentiation in mathematics lessons were not related to levels of IT integration. Put together, the predictors explained a total of 15.90% of the school-level variance in levels of IT integration. In particular, school IT resource availability, and mathematics teachers’ pedagogical beliefs and practices stood out as the most important determinants of IT integration in mathematics lessons. PMID:27997593

Integrating STEM Place-Based, Culturally Responsive and Citizen Science Learning in Exploring the Impacts and Feedbacks of a Changing Arctic

NASA Astrophysics Data System (ADS)

Sparrow, E. B.; Spellman, K. V.; Fabbri, C.; Comiso, J. C.; Chase, M.; Fochesatto, G. J.; Butcher, C. E.; Jones, D.; Bacsujlaky, M.; Yoshikawa, K.; Gho, C. L.; Wegner, K.

2016-12-01

To build capacity in navigating challenges associated with a changing climate, learning in Arctic communities must not only increase STEM and climate change literacy, but also generate new knowledge as the rapid changes occur. Among the new NASA Science Mission Directorate Science Education projects, Arctic and Earth SIGNs (STEM Integrating GLOBE and NASA assets) is providing opportunities for K-12 pre-service and in-service teachers, their students, and lifelong learners to engage in citizen science using the Global Learning and Observations to Benefit the Environment (GLOBE) methods and culturally responsive learning to help address climate change challenges within their unique community, and contribute to hypothesis driven research. This project will weave traditional knowledge and western science, and use ground observations and satellite data and best teaching practices in STEM learning, supported through a NASA cooperative agreement and collaborative partnerships. Implementation will begin in rural Alaska and grow within Alaska and throughout the United States to reach underserved and STEM underrepresented populations, through face-to-face and on-line teaching and learning as well as building partnerships among educators, scientists, local and indigenous experts, institutions, agencies, and learning communities. Partners include research and teaching institutions at the University of Alaska Fairbanks, the Association of Interior Native Educators, the North Slope Borough School District and other school districts, the Kenaitze Tribe Environmental Education program, NASA science education and research programs as well as those of NOAA and NSF, the GLOBE Implementation Office, the 4-H program and others. The program resources and model will be shared and disseminated within the United States and globally through partners for local, national and worldwide use in STEM climate change education and citizen empowerment.

Why Teacher Voice Matters

ERIC Educational Resources Information Center

Kahlenberg, Richard D.; Potter, Halley

2014-01-01

Kahlenberg and Potter report on research that shows when teachers are engaged in school decisions and collaborate with administrators and each other, school climate improves. The authors add, this promotes a better learning environment for students, which raises student achievement, and a better working environment for teachers, which reduces…

Restructuring Schools for Young Adolescents. Issues in Education.

ERIC Educational Resources Information Center

Office of Educational Research and Improvement (ED), Washington, DC.

The schools attended by young adolescents must be transformed into "communities for learning" that provide students with a climate fostering their intellectual development. Such communities have high expectations for students, challenge them with an integrated curriculum, offer meaningful relationships with adults, and maintain an…

The Climate of Inclusive Classrooms: The Pupil Perspective

ERIC Educational Resources Information Center

Tetler, Susan; Baltzer, Kirsten

2011-01-01

This paper offers insights into learning experiences in inclusive classrooms, gained by giving voices to pupils about their perceptions of themselves and their opinions on classroom climate. A positive response pattern is identified concerning academic and social dimensions of schools, while the overall picture concerning the dimension of…

Exploring Small Climates--An Outdoor Science Technique.

ERIC Educational Resources Information Center

Rillo, Thomas J.

The study of climates in small areas as an outdoor science teaching technique is described in this paper. It is suggested that, while teachers are presenting a weather unit to their elementary school classes, they should not overlook the opportunity to make learning more meaningful through outdoor teaching techniques. Explorations of temperatures…

Perceptions of the School Climate: Does Support of the Local Teachers Union Make a Significant Difference?

ERIC Educational Resources Information Center

Alfree, Catherine Mae

2013-01-01

Teachers unions have become a staple in today's public schools. While much has been written about the unions' political clout and their negotiating of restrictive collective bargaining agreements, little research has been dedicated to determining how these unions impact the school learning environment and student achievement. This quantitative…

Blending Resources for a Collaborative Service Project in a Professional Development School Focused on Student Learning

ERIC Educational Resources Information Center

Henry, Julie Jacobs; Tryjankowski, Anne Marie; Tybor, Debra; Brandjes, Elizabeth; Asztalos, Jessica; Smith, Kemily; Muscarella, Michael

2012-01-01

Collaborative Professional Development School (PDS) relationships require financing and other supports that may not be typically included in the budgets for partnering schools and colleges. In the current economic climate, budgets are especially tight in many educational institutions. In order to sustain PDS relationships in these times,…

We're All in This Together: Teacher Empowerment and Leadership Transform an Elementary School Community.

ERIC Educational Resources Information Center

Pinchot, Michelle; Weber, Chris

2016-01-01

At Peters K-3 Elementary School in Garden Grove, California, teacher leadership and empowerment supported by professional learning from the district have led to increases in student outcomes and in parent and student satisfaction with the culture and climate of the school community. Peters demonstrates the impact that empowering staffs and…

Assessment of High-school Students Engaged in the EarthLabs Climate Modules using the Climate Concept Inventory

NASA Astrophysics Data System (ADS)

McNeal, K.; Libarkin, J. C.; Ledley, T. S.; Gold, A. U.; Lynds, S. E.; Haddad, N.; Ellins, K.; Dunlap, C.; Bardar, E. W.; Youngman, E.

2015-12-01

Instructors must have on hand appropriate assessments that align with their teaching and learning goals in order to provide evidence of student learning. We have worked with curriculum developers and scientists to develop the Climate Concept Inventory (CCI), which meets goals of the EarthLabs Climate on-line curriculum. The developed concept inventory includes 19 content-driven multiple choice questions, six affective-based multiple choice questions, one confidence question, three open-ended questions, and eight demographic questions. Our analysis of the instrument applies item response theory and uses item characteristic curves. We have assessed over 500 students in nearly twenty high school classrooms in Mississippi and Texas that have engaged in the implementation of the EarthLabs curriculum and completed the CCI. Results indicate that students had pre-post gains on 9 out of 10 of the content-based multiple choice questions with positive gains in answer choice selection ranging from 1.72% to 42%. Students significantly reported increased confidence with 15% more students reporting that they were either very or fairly confident with their answers. Of the six affective questions posed, 5 out of 6 showed significant shifts towards gains in knowledge, awareness, and information about Earth's climate system. The research has resulted in a robust and validated climate concept inventory for use with advanced high school students, where we have been able to apply its use within the EarthLabs project.

The Impact of Project-Based Climate Change Learning Experiences on Students' Broad Climate Literacy

NASA Astrophysics Data System (ADS)

DeWaters, J.; Powers, S. E.; Dhaniyala, S.

2014-12-01

Evidence-based pedagogical approaches such as project- and inquiry-based techniques have been shown to promote effective learning in science and engineering. The impact of project-based learning experiences on middle school (MS), high school (HS), and undergraduate (UG) students' climate literacy was investigated as part of a NASA Innovations in Climate Education (NICE) project. Project-based modules were developed and taught by MS and HS teachers who participated in climate change education workshops. UG students enrolled in a climate science course completed independent research projects that provided the basis for several of the HS/MS modules. All modules required students to acquire and analyze historical temperature data and future climate predictions, and apply their analysis to the solution of a societal or environmental problem related to our changing climate. Three versions of a quantitative survey were developed and used in a pre-test/post-test research design to help evaluate the project's impact on MS, HS, and UG students' climate literacy, which includes broad climate knowledge as well as affective and behavioral aspects. Content objectives were guided primarily by the 2009 document, Climate Literacy: The Essential Principles of Climate Sciences. All three groups of students made modest but statistically significant cognitive (p<<0.001) and affective (p<0.01) gains; UG students also showed an increase in behavior scores (p=0.001). Results of an ANCOVA showed significant differences in students' cognitive (p<0.001), behavioral (p=0.005) and self-efficacy (p=0.012) outcomes among the 9 participating MS and HS classrooms, where both teacher and module content varied. The presentation will include a description of some key aspects of the project-based curricula developed and used in this research, the development and content of the climate literacy survey, and the interpretation of specific pre/post changes in participating students relative to the content of and approach used in the project-based modules.

Considering Students' Out-of-School Lives and Values in Designing Learning Environments for Climate Change

NASA Astrophysics Data System (ADS)

Walsh, E.; Tsurusaki, B.

2012-12-01

What are the implications of social controversy for the teaching and learning of climate change science? How do the political dimensions of this controversy affect learners' attitudes towards and reasoning about climate change and climate science? Case studies from a pilot enactment of an ecological impacts of climate change curriculum explore these questions by describing how five high school students' understandings of climate change science developed at the intersection of political and scientific values, attitudes, and ways of knowing. Case studies combine qualitative, ethnographic methods including interviews and classroom video observations with quantitative pre/post-assessments of student conceptual understandings and weekly surveys of student engagement. Data indicate that students had initial perceptions of climate change informed by the media and their families—both supporting and rejecting the scientific consensus—that influenced how they engaged with the scientific evidence. While students who were initially antagonistic to anthropogenic climate change did develop conceptual understandings of the scientific evidence for human-influences on climate change, this work was challenging and at times frustrating for them. These case studies demonstrate the wide range of initial attitudes and understandings that students bring to the study of climate change. They also demonstrate that it is possible to make significant shifts in students' understandings of climate change science, even in students who were initially resistant to the idea of anthropogenic climate change. Finally, multiple case studies discuss ways that the learning that occurred in the classroom crossed out of the classroom into the students' homes and family talk. This work highlights how learners' pathways are shaped not only by their developing understanding of the scientific evidence but also by the political and social influences that learners navigate across the contexts of their lives. It underscores the need to understand and support students as they interact with climate change across the contexts of their lives.

School climate factors contributing to student and faculty perceptions of safety in select Arizona schools.

PubMed

Bosworth, Kris; Ford, Lysbeth; Hernandaz, Diley

2011-04-01

To ensure that schools are safe places where students can learn, researchers and educators must understand student and faculty safety concerns. This study examines student and teacher perceptions of school safety. Twenty-two focus groups with students and faculty were conducted in 11 secondary schools. Schools were selected from a stratified sample to vary in location, proximity to Indian reservations, size, and type. The data analysis was based on grounded theory. In 9 of 11 schools, neither faculty nor students voiced overwhelming concerns about safety. When asked what makes school safe, students tended to report physical security features. School climate and staff actions also increased feelings of safety. Faculty reported that relationships and climate are key factors in making schools safe. High student performance on standardized tests does not buffer students from unsafe behavior, nor does living in a dangerous neighborhood necessarily lead to more drug use or violence within school walls. School climate seemed to explain the difference between schools in which students and faculty reported higher versus lower levels of violence and alcohol and other drug use. The findings raise provocative questions about school safety and provide insight into elements that lead to perceptions of safety. Some schools have transcended issues of location and neighborhood to provide an environment perceived as safe. Further study of those schools could provide insights for policy makers, program planners, and educational leaders. © 2011, American School Health Association.

Addressing Barriers to Learning. Volume 13, Number 2. Spring 2008

ERIC Educational Resources Information Center

Center for Mental Health in Schools at UCLA, 2008

2008-01-01

Concern about responding to behavior problems and promoting social and emotional learning are related and are embedded into the arenas we frame to encompass the content of student/learning supports. How these concerns are addressed is critical to the type of school and classroom climate that emerges and to student engagement and re-engagement in…

Digital Distinction: Badges Add a New Dimension to Adult Learning

ERIC Educational Resources Information Center

Ady, Kellie; Kinsella, Keli; Paynter, Amber

2015-01-01

As a part of a professional learning team, educators are constantly looking for new approaches and designs that promote deeper adult learning. This article describes how educators at Cherry Creek School District in Colorado developed a digital badge system that recognizes the work teachers are doing, supports a culture and climate of celebration,…

Advancing Climate Literacy through Investment in Science Education Faculty, and Future and Current Science Teachers: Providing Professional Learning, Instructional Materials, and a Model for Locally-Relevant and Culturally-Responsive Content

NASA Astrophysics Data System (ADS)

Halversen, C.; Apple, J. K.; McDonnell, J. D.; Weiss, E.

2014-12-01

The Next Generation Science Standards (NGSS) call for 5th grade students to "obtain and combine information about ways individual communities use science ideas to protect Earth's resources and environment". Achieving this, and other objectives in NGSS, will require changes in the educational system for both students and teachers. Teachers need access to high quality instructional materials and continuous professional learning opportunities starting in pre-service education. Students need highly engaging and authentic learning experiences focused on content that is strategically interwoven with science practices. Pre-service and early career teachers, even at the secondary level, often have relatively weak understandings of the complex Earth systems science required for understanding climate change and hold alternative ideas and naïve beliefs about the nature of science. These naïve understandings cause difficulties in portraying and teaching science, especially considering what is being called for in NGSS. The ACLIPSE program focuses on middle school pre-service science teachers and education faculty because: (1) the concepts that underlie climate change align well with the disciplinary core ideas and practices in NGSS for middle grades; and (2) middle school is a critical time for capturing students interest in science as student engagement by eighth grade is the most effective predictor of student pursuit of science in high school and college. Capturing student attention at this age is critical for recruitment to STEM careers and lifelong climate literacy. THE ACLIPSE program uses cutting edge research and technology in ocean observing systems to provide educators with new tools to engage students that will lead to deeper understanding of the interactions between the ocean and climate systems. Establishing authentic, meaningful connections between indigenous and place-based, and technological climate observations will help generate a more holistic perspective on climate change and demonstrate that observing systems can enhance understanding. ACLIPSE materials strive to translate research about climate change effectively into understandable narratives of real world phenomena using ocean data, creating meaningful pathways into ocean-climate science for students in ALL communities.

ExplorOcean H2O SOS: Help Heal the Ocean-Student Operated Solutions: Operation Climate Change

NASA Astrophysics Data System (ADS)

Weiss, N.; Wood, J. H.

2016-12-01

The ExplorOcean H2O SOS: Help Heal the Ocean—Student Operated Solutions: Operation Climate Change, teaches middle and high school students about ocean threats related to climate change through hands-on activities and learning experiences in the field. During each session (in-class or after-school as a club), students build an understanding about how climate change impacts our oceans using resources provided by ExplorOcean (hands-on activities, presentations, multi-media). Through a student leadership model, students present lessons to each other, interweaving a deep learning of science, 21st century technology, communication skills, and leadership. After participating in learning experiences and activities related to 6 key climate change concepts: 1) Introduction to climate change, 2) Increased sea temperatures, 3) Ocean acidification, 4) Sea level rise, 5) Feedback mechanisms, and 6) Innovative solutions. H2O SOS- Operation Climate change participants select one focus issue and use it to design a multi-pronged campaign to increase awareness about this issue in their local community. The campaign includes social media, an interactive activity, and a visual component. All participating clubs that meet participation and action goals earn a field trip to ExplorOcean where they dive deeper into their selected issue through hands-on activities, real-world investigations, and interviews or presentations with experts. In addition to self-selected opportunities to showcase their focus issue, teams will participate in one of several key events identified by ExplorOcean, including ExplorOcean's annual World Oceans Day Expo.

Cool Science: K-12 Climate Change Art Displayed on Buses

NASA Astrophysics Data System (ADS)

Chen, R. F.; Lustick, D. S.; Lohmeier, J.; Thompson, S. R.

2015-12-01

Cool science is an art contest where K12 students create placards (7" x 22") to educate the public about climate change. Students are prompted to create their artwork in response to questions such as: What is the evidence for climate change? How does climate change impact your local community? What can you do to reduce the impacts of climate change? In each of three years, 500-600 student entrees have been submitted from more than 12 school districts across Massachusetts. A panel of judges including scientists, artists, rapid transit representatives, and educators chooses elementary, middle, and high school winners. Winners (6), runners-up (6), and honorable mentions (12) and their families and teachers are invited to an annual Cool Science Award Ceremony to be recognized and view winning artwork. All winning artwork is posted on the Cool Science website. The winning artwork (2 per grade band) is converted into placards (11" x 28") and posters (2.5' x 12') that are placed on the inside (placards) and outside (posters) of buses. Posters are displayed for one month. So far, Cool Science was implemented in Lowell, MA where over 5000 public viewers see the posters daily on the sides of Lowell Rapid Transit Authority (LRTA) buses, making approximately 1,000,000 impressions per year. Cool Science acts to increase climate literacy in children as well as the public, and as such promotes intergenerational learning. Using art in conjunction with science learning about climate change appears to be effective at engaging not just traditionally high achieving science students, but also those interested in the creative arts. Hearing winners' stories about how they created their artwork and what this contest meant to them supports the idea that Cool Science attracts a wide diversity of students. Parents discuss climate change with their children. Multiple press releases announcing the winners further promotes the awareness of climate change throughout school districts and their communities. Pre- and post-surveys of LRTA riders suggests that public viewers of winning artwork increase their awareness that climate change is happening, that climate change is human caused, and that they want to learn more. Using student voices (artwork) appears to be an effective way to communicate climate change issues to public audiences.

A pilot study of an online universal school-based intervention to prevent alcohol and cannabis use in the UK

PubMed Central

Newton, Nicola C; Conrod, Patricia J; Rodriguez, Daniel M; Teesson, Maree

2014-01-01

Objectives The online universal Climate Schools intervention has been found to be effective in reducing the use of alcohol and cannabis among Australian adolescents. The aim of the current study was to examine the feasibility of implementing this prevention programme in the UK. Design A pilot study examining the feasibility of the Climate Schools programme in the UK was conducted with teachers and students from Year 9 classes at two secondary schools in southeast London. Teachers were asked to implement the evidence-based Climate Schools programme over the school year with their students. The intervention consisted of two modules (each with six lessons) delivered approximately 6 months apart. Following completion of the intervention, students and teachers were asked to evaluate the programme. Results 11 teachers and 222 students from two secondary schools evaluated the programme. Overall, the evaluations were extremely positive. Specifically, 85% of students said the information on alcohol and cannabis and how to stay safe was easy to understand, 84% said it was easy to learn and 80% said the online cartoon-based format was an enjoyable way to learn health theory topics. All teachers said the students were able to recall the information taught, 82% said the computer component was easy to implement and all teachers said the teacher's manual was easy to use to prepare class activities. Importantly, 82% of teachers said it was likely that they would use the programme in the future and recommend it to others. Conclusions The Internet-based universal Climate Schools prevention programme to be both feasible and acceptable to students and teachers in the UK. A full evaluation trial of the intervention is now required to examine its effectiveness in reducing alcohol and cannabis use among adolescents in the UK before implementation in the UK school system. PMID:24840248

Sampling in the Snow: High School Winter Field Experiences Provide Relevant, Real World Connections Between Scientific Practices and Disciplinary Core Ideas

NASA Astrophysics Data System (ADS)

Hanson, E. W.; Burakowski, E. A.

2014-12-01

For much of the northern United States, the months surrounding the winter solstice are times of increased darkness, low temperatures, and frozen landscapes. It's a time when many high school science educators, who otherwise would venture outside with their classes, hunker down and are wary of the outdoors. However, a plethora of learning opportunities lies just beyond the classroom. Working collaboratively, a high school science teacher and a snow scientist have developed multiple activities to engage students in the scientific process of collecting, analyzing and interpreting the winter world using snow data to (1) learn about the insulative properties of snow, and (2) to learn about the role of snow cover on winter climate through its reflective properties while participating in a volunteer network that collects snow depth, albedo (reflectivity), and density data. These outdoor field-based snow investigations incorporate Next Generation Science Standards (NGSS) and disciplinary core ideas, including ESS2.C: The roles of water in Earth's surface processes and ESS2.D: Weather and Climate. Additionally, the lesson plans presented address Common Core State Standards (CCSS) in Mathematics, including the creation and analysis of bar graphs and time series plots (CCSS.Math.HSS-ID.A.1) and xy scatter plots (CCSS.Math.HSS-ID.B.6). High school students participating in the 2013/2014 snow sampling season described their outdoor learning experience as "authentic" and "hands-on" as compared to traditional class indoors. They emphasized that learning outdoors was essential to their understanding of underlying content and concepts because they "learn through actual experience."

Place in Pacific Islands Climate Education

NASA Astrophysics Data System (ADS)

Barros, C.; Koh, M. W.

2015-12-01

Understanding place, including both the environment and its people, is essential to understanding our climate, climate change, and its impacts. For us to develop a sense of our place, we need to engage in multiple ways of learning: observation, experimentation, and opportunities to apply new knowledge (Orr, 1992). This approach allows us to access different sources of knowledge and then create local solutions for local issues. It is especially powerful when we rely on experts and elders in our own community along with information from the global community.The Pacific islands Climate Education Partnership (PCEP) is a collaboration of partners—school systems, nongovernmental organizations, and government agencies—working to support learning and teaching about climate in the Pacific. Since 2009, PCEP partners have been working together to develop and implement classroom resources, curriculum standards, and teacher professional learning opportunities in which learners approach climate change and its impacts first through the lens of their own place. Such an approach to putting place central to teaching and learning about climate requires partnership and opportunities for learners to explore solutions for and with their communities. In this presentation, we will share the work unfolding in the Republic of the Marshall Islands (RMI) as one example of PCEP's approach to place-based climate education. Three weeklong K-12 teacher professional learning workshops took place during June-July 2015 in Majuro, RMI on learning gardens, climate science, and project-based learning. Each workshop was co-taught with local partners and supports educators in teaching climate-related curriculum standards through tasks that can foster sense of place through observation, experimentation, and application of new knowledge. Additionally, we will also share PCEP's next steps in place-based climate education, specifically around emerging conversations about the importance of highlighting stories of place to generate local solutions for local issues, as well as further global awareness about climate change impacts in the Pacific.

Active learning innovative for the study of climatic variations in Sicily (Italy) and micro-climates in confined environments. Digitized construction of agro-meteorological laboratory and entrepreneurial development of methodical home automation systems

NASA Astrophysics Data System (ADS)

Crimi, Pietro

2017-04-01

In education to issues of environmental sustainability and the use of renewable energy resources, there are the existing laboratory teaching methodologies in Superior School "A. Volta" in Palermo (Italy) for acquisition, processing and control network of agro-meteorological data on the local area. This station was planned to allow students practical multidisciplinary learning experiences in the field of agro-meteorological applications. The School started a few months ago a project of MIUR (Italian Ministry of Education) that updates the lab through the most innovative digital technologies in the field of mechatronics, domotic and sustainable energy, that are supported by the latest needs of scientific-educational multimedia. It is an educational training that intends to implement a data collection center agro-meteorological on "digital platforms," informational purposes and applications, on current issues of climate changes and their consequences in Sicily (Italy). This active learning will interconnect the data collected from the station weather and climate of the school with those locally and regionally, with "weather-climatic patterns" correlations that are implemented in the Mediterranean area (International Program "GAW-Global Atmosphere Watch"). For this reason were enabled synergies with two major public scientific research and acquisition services-data disclosure (ENEA and SIAS-Agrometeorological Information Service, Sicily Region), both to energy efficiency of the School Station, both to support data and digital applications in GIS, with agro-meteorological services to companies operating in the agricultural and environmental sustainability, high consideration themes in European Programming. A branch of this training course is the entrepreneurship education, carried out by a few years in School with the development of "experimental models" for the creation of "innovation clusters" to make entrepreneurial experience since school, creating/managing mini-companies. In the European educational program (Erasmus + KA3) called "Innovation Cluster for Entrepreneurship Education (ICEE)", aimed at enhancing the students' creativity and entrepreneurship, one of the mini-companies, created by students at the Institute, has developed and produced with innovative software a prototype automated system, a mini-greenhouse powered by solar energy, capable of recreating the habitat suitable for house plants, through the automated control of numerous agricultural micro-climatic parameters. Creating multimedia systems such as web platforms, advanced software and app/QR-code for mobile devices, defines the most innovative tools in computer science outreach phases. This experimental approach incorporates the teaching methods that are defined by the curriculum of the "Liceo delle Scienze Applicate" that exists in the School, with the proposition of experimental models that besides being "learning models" can switch into "knowledge models" correlated with scientific and technical-scientific models that exist in the world of research. La Natura non distrugge, che per creare, e non crea, che per distruggere (Storia dell'Astronomia, 1813 - Giacomo Leopardi)

Evaluation of authentic science projects on climate change in secondary schools: a focus on gender differences

NASA Astrophysics Data System (ADS)

Dijkstra, Elma; Goedhart, Martin

2011-07-01

Background and purpose This study examines secondary-school students' opinions on participating in authentic science projects which are part of an international EU project on climate change research in seven countries. Partnerships between schools and research institutes result in student projects, in which students work with and learn from scientists about the global carbon cycle. This study focuses in particular on differences between male and female students, as female students normally like traditional school science less than male students. Sample and design Data, drawn from 1370 students from 60 secondary schools across Europe, were collected through questionnaires taken at the end of the projects. The evaluated aspects were: organization; enjoyment; difficulty; and impact of the projects. Results The findings suggest that authentic science education is appreciated very much by both male students and even more by female students. The projects had positive impacts on climate change ideas, in particular for female students. Female students felt that they had learned many new things more often than male students. Conclusions Both male and female students have positive opinions about the authentic science projects. The results further point to positive effects of activities in which students have an active role, like hands-on experiments or presentation of results. The findings are placed in the international context of science education and their implications for policy are discussed.

Assessing STEM content learning: using the Arctic's changing climate to develop 21st century learner

NASA Astrophysics Data System (ADS)

Henderson, G. R.; Durkin, S.; Moran, A.

2016-12-01

In recent years the U.S. federal government has called for an increased focus on science, technology, engineering, and mathematics (STEM) in the educational system to ensure that there will be sufficient technical expertise to meet the needs of business and industry. As a direct result of this STEM emphasis, the number of outreach activities aimed at actively engaging these students in STEM learning has surged. Such activities, frequently in the form of summer camps led by university faculty, have targeted primary and secondary school students with the goal of growing student interest in STEM majors and STEM careers. This study assesses short-term content learning using a climate module that highlights rapidly changing Arctic climate conditions to illustrate concepts of radiative energy balance and climate feedback. Hands-on measurement of short and longwave radiation using simple instrumentation is used to demonstrate concepts that are then related back to the "big picture" Arctic issue. Pre and post module questionnaires were used to assess content learning, as this learning type has been identified as the basis for STEM literacy and the vehicle by which 21st century learning skills are usually developed. In this instance, students applied subject knowledge they gained by taking radiation measurements to better understand the real-world problem of climate change.

Climate Change: Providing Equitable Access to a Rigorous and Engaging Curriculum

ERIC Educational Resources Information Center

Cardichon, Jessica; Roc, Martens

2013-01-01

This report examines how implementing rigorous and engaging curriculum aligned with college- and career-ready standards fosters positive school climates in which students are motivated to succeed, achievement gaps narrow, and learning and outcomes improve. It includes federal, state, and local recommendations for increasing access to high-quality,…

Teacher Responses to Bullying: Self-Reports from the Front Line

ERIC Educational Resources Information Center

Marshall, Megan L.; Varjas, Kris; Meyers, Joel; Graybill, Emily C.; Skoczylas, Rebecca B.

2009-01-01

School climate research emphasizes the critical role teachers play in providing safe and supportive environments for students to learn. Despite numerous negative physical and mental health consequences related to bullying in schools, research investigating teachers' responses to reduce bullying is scarce. Individual in-depth interviews were…

School-Based Aggression Replacement Training

ERIC Educational Resources Information Center

Roth, Becky Sue; Striepling-Goldstein, Susan

2003-01-01

Aggression Replacement Training (ART) is a potent K-12 intervention that responds to many of the developmental and natural needs of aggressive and antisocial students. Woven into the curriculum preventatively or as a stand-alone course in response to an antisocial school climate, ART facilitates the learning necessary to reach and provide lasting…

Tools for Teaching Climate Change Studies

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

Maestas, A.M.; Jones, L.A.

2005-03-18

The Atmospheric Radiation Measurement Climate Research Facility (ACRF) develops public outreach materials and educational resources for schools. Studies prove that science education in rural and indigenous communities improves when educators integrate regional knowledge of climate and environmental issues into school curriculum and public outreach materials. In order to promote understanding of ACRF climate change studies, ACRF Education and Outreach has developed interactive kiosks about climate change for host communities close to the research sites. A kiosk for the North Slope of Alaska (NSA) community was installed at the Iupiat Heritage Center in 2003, and a kiosk for the Tropical Westernmore » Pacific locales will be installed in 2005. The kiosks feature interviews with local community elders, regional agency officials, and Atmospheric Radiation Measurement (ARM) Program scientists, which highlight both research and local observations of some aspects of environmental and climatic change in the Arctic and Pacific. The kiosks offer viewers a unique opportunity to learn about the environmental concerns and knowledge of respected community elders, and to also understand state-of-the-art climate research. An archive of interviews from the communities will also be distributed with supplemental lessons and activities to encourage teachers and students to compare and contrast climate change studies and oral history observations from two distinct locations. The U.S. Department of Energy's ACRF supports education and outreach efforts for communities and schools located near its sites. ACRF Education and Outreach has developed interactive kiosks at the request of the communities to provide an opportunity for the public to learn about climate change from both scientific and indigenous perspectives. Kiosks include interviews with ARM scientists and provide users with basic information about climate change studies as well as interviews with elders and community leaders discussing the impacts of climate change on land, sea, and other aspects of village life.« less

Climate Literacy Ambassadors

NASA Astrophysics Data System (ADS)

Ackerman, S. A.; Mooney, M. E.

2011-12-01

The Climate Literacy Ambassadors program is a collaborative effort to advance climate literacy led by the Cooperative Institute of Meteorological Satellite Studies (CIMSS) at the University of Wisconsin-Madison. With support from NASA, CIMSS is coordinating a three-tiered program to train G6-12 teachers to be Ambassadors of Climate Literacy in their schools and communities. The complete training involves participation at a teacher workshop combined with web-based professional development content around Global and Regional Climate Change. The on-line course utilizes e-learning technology to clarify graphs and concepts from the 2007 Intergovernmental Panel on Climate Change Summary for Policy Makers with content intricately linked to the Climate Literacy: The Essential Principles of Climate Science. Educators who take the course for credit can develop lesson plans or opt for a project of their choosing. This session will showcase select lesson plans and projects, ranging from a district-wide action plan that engaged dozens of teachers to Ambassadors volunteering at the Aldo Leopold Climate Change Nature Center to a teacher who tested a GLOBE Student Climate Research Campaign (SCRC) learning project with plans to participate in the SCRC program. Along with sharing successes from the CIMSS Climate Literacy Ambassadors project, we will share lessons learned related to the challenges of sustaining on-line virtual educator communities.

Characteristics of Predoctoral Endodontic Education in the United States and Canada.

ERIC Educational Resources Information Center

Mendel, Robert W.; Scheetz, James P.

1981-01-01

A survey to assess the current state of predoctoral endodontic education programs in U.S. and Canadian dental schools is discussed. The investigation focused on faculty characteristics, the learning climate for endodontics, and problems of administration. Current learning conditions were compared with the desirability of these conditions.…

The Role of the Library Media Specialist in Standards-Based Learning.

ERIC Educational Resources Information Center

Corey, Linda

2002-01-01

Discusses the role of the school library media specialist in standards-based learning. Topics include standards-based assessment; information literacy standards; collaboration with classroom teachers; benchmarks and indicators for student performance; leadership in a standards-based climate; and the use of technology to support curriculum and…

Air, Ocean and Climate Monitoring Enhancing Undergraduate Training in the Physical, Environmental and Computer Sciences

NASA Technical Reports Server (NTRS)

Hope, W. W.; Johnson, L. P.; Obl, W.; Stewart, A.; Harris, W. C.; Craig, R. D.

2000-01-01

Faculty in the Department of Physical, Environmental and Computer Sciences strongly believe in the concept that undergraduate research and research-related activities must be integrated into the fabric of our undergraduate Science and Technology curricula. High level skills, such as problem solving, reasoning, collaboration and the ability to engage in research, are learned for advanced study in graduate school or for competing for well paying positions in the scientific community. One goal of our academic programs is to have a pipeline of research activities from high school to four year college, to graduate school, based on the GISS Institute on Climate and Planets model.

Principals' instructional management skills and middle school science teacher job satisfaction

NASA Astrophysics Data System (ADS)

Gibbs-Harper, Nzinga A.

The purpose of this research study was to determine if a relationship exists between teachers' perceptions of principals' instructional leadership behaviors and middle school teacher job satisfaction. Additionally, this study sought to assess whether principal's instructional leadership skills were predictors of middle school teachers' satisfaction with work itself. This study drew from 13 middle schools in an urban Mississippi school district. Participants included teachers who taught science. Each teacher was given the Principal Instructional Management Rating Scale (PIMRS; Hallinger, 2011) and the Teacher Job Satisfaction Questionnaire (TJSQ; Lester, 1987) to answer the research questions. The study was guided by two research questions: (a) Is there a relationship between the independent variables Defining the School's Mission, Managing the Instructional Program, and Developing the School Learning Climate Program and the dependent variable Work Itself?; (b) Are Defining the School's Mission, Managing the Instructional Program, and Developing the School Learning Climate Program predictors of Work Itself? The Pearson's correlation and multiple regression analysis were utilized to examine the relationship between the three dimensions of principals' instructional leadership and teacher satisfaction with work itself. The data revealed that there was a strong, positive correlation between all three dimensions of principals' instructional leadership and teacher satisfaction with work itself. However, the multiple regression analysis determined that teachers' perceptions of principals' instructional management skills is a slight predictor of Defining the School's Mission only.

Parents' Perspective of the Impact of School Practices on the Functioning of Students with Special Educational Needs

ERIC Educational Resources Information Center

Lui, Ming; Yang, Lan; Sin, Kuen-Fung

2017-01-01

Students with special educational needs (SEN) are at an elevated risk of psychological and behavioural dysfunctions. In this study, we conducted a survey of parents of students with SEN in Hong Kong to examine the impact of two school practices--learning support and school climate--on the psychological and behavioural functioning (PBF) of students…

A Long Walk to The Water's Edge

ERIC Educational Resources Information Center

Fortner, Rosanne W.

2005-01-01

Middle school students examine data from the Great Lakes region, assess impact of climate changes, and relate climate and water processes in a concept map. After learning how lake water levels will likely decline, they listen to a story about a grandparent revisiting the lakeshore with a grandchild. In the role of the grandparent and then of the…

Building Systems from Scratch: An Exploratory Study of Students Learning about Climate Change

ERIC Educational Resources Information Center

Puttick, Gillian; Tucker-Raymond, Eli

2018-01-01

Science and computational practices such as modeling and abstraction are critical to understanding the complex systems that are integral to climate science. Given the demonstrated affordances of game design in supporting such practices, we implemented a free 4-day intensive workshop for middle school girls that focused on using the visual…

Implications of Student Health Problems on Achievement and Engagement

ERIC Educational Resources Information Center

La Salle, Tamika P.; Hagermoser Sanetti, Lisa M.

2016-01-01

Healthy students are better learners. Establishing positive school climates where students are healthy, engaged, and prepared to learn is a critical component in increasing student engagement and closing the achievement gap. As such, educators need to be aware of the impact of education-related outcomes on student outcomes and schools' ability to…

FOLLOW-UP ANALYSIS OF MADISON JUNIOR HIGH SCHOOL.

ERIC Educational Resources Information Center

CLAYTON, THOMAS E.; AND OTHERS

OVER A PERIOD OF 2 YEARS, A DRAMATIC TRANSFORMATION HAS OCCURRED IN THE LEARNING CLIMATE OF THE SCHOOL. THE TENSION AND HOSTILITY, PRESENT IN MANY OF THE CLASSES OBSERVED IN 1961, HAVE LARGELY DISAPPEARED. WITH A MINIMUM OF STRUCTURAL CHANGES, THE PHYSICAL FACILITIES HAVE BEEN GREATLY IMPROVED. BRIGHT COLORS, LARGE BULLETIN BOARDS, AND DISPLAYS OF…

Integrating the Desegregated School: Some Observations and Suggestions.

ERIC Educational Resources Information Center

Virag, Wayne F.

The problem of the desegregation process in public schools, beginning with the Supreme Court decision Brown v the Board of Education of Topeka, Kansas, is that it is conceived of as an artificial climate imposed by ratios and busing rather than a learning situation wherein ethnocentricity is developed as a positive attribute. Integration, however,…

Observing Emotional Interactions between Teachers and Students in Elementary School Classrooms

ERIC Educational Resources Information Center

Yan, Elizabeth M.; Evans, Ian M.; Harvey, Shane T.

2011-01-01

Fostering emotional skills in the elementary (primary) school classroom can lead to improved learning outcomes, more prosocial behavior, and positive emotional development. Incorporating emotional skill development into the naturalistic and implicit teaching environment is a key feature of what is meant by the emotional climate of the classroom.…

Service Learning Creates a Positive Relationship between Teachers and Students

ERIC Educational Resources Information Center

Lubchenko, Sandra

2016-01-01

The current pedagogy in creating a positive school climate is building personal relationships with students. Teachers and students work together to create a safe environment where students engage in the academic pursuit of knowledge. Service-learning projects that create this close bond and offer a collective pursuit of helping others give…

Investigating Middle School Students' Perceptions of Their Learning Environments through Drawings

ERIC Educational Resources Information Center

McHatton, Patricia Alvarez; Shaunessy-Dedrick, Elizabeth; Farmer, Jennie L.; Ray, Sharon N. E.; Bessette, Harriet J.

2014-01-01

The purpose of this study was to explore through student drawings and corresponding narratives, middle grades students' perceptions of their learning environment, which we defined to include pedagogy, interactions (teacher-student and student-student), and climate, and how these may differ based on service delivery model (i.e., gifted, special…

Implementation of Personalized E-Assessment for Remedial Teaching in an E-Learning Environment

ERIC Educational Resources Information Center

Lin, Chen-Yu; Wang, Tzu-Hua

2017-01-01

This research explored how different models of Web-based dynamic assessment in remedial teaching improved junior high school student learning achievement and their misconceptions about the topic of "Weather and Climate." This research adopted a quasi-experimental design. A total of 58 7th graders participated in this research.…

Investigating Climate Change Issues With Web-Based Geospatial Inquiry Activities

NASA Astrophysics Data System (ADS)

Dempsey, C.; Bodzin, A. M.; Sahagian, D. L.; Anastasio, D. J.; Peffer, T.; Cirucci, L.

2011-12-01

In the Environmental Literacy and Inquiry middle school Climate Change curriculum we focus on essential climate literacy principles with an emphasis on weather and climate, Earth system energy balance, greenhouse gases, paleoclimatology, and how human activities influence climate change (http://www.ei.lehigh.edu/eli/cc/). It incorporates a related set of a framework and design principles to provide guidance for the development of the geospatial technology-integrated Earth and environmental science curriculum materials. Students use virtual globes, Web-based tools including an interactive carbon calculator and geologic timeline, and inquiry-based lab activities to investigate climate change topics. The curriculum includes educative curriculum materials that are designed to promote and support teachers' learning of important climate change content and issues, geospatial pedagogical content knowledge, and geographic spatial thinking. The curriculum includes baseline instructional guidance for teachers and provides implementation and adaptation guidance for teaching with diverse learners including low-level readers, English language learners and students with disabilities. In the curriculum, students use geospatial technology tools including Google Earth with embedded spatial data to investigate global temperature changes, areas affected by climate change, evidence of climate change, and the effects of sea level rise on the existing landscape. We conducted a designed-based research implementation study with urban middle school students. Findings showed that the use of the Climate Change curriculum showed significant improvement in urban middle school students' understanding of climate change concepts.

Integrating Students and Teachers into Research on Adaptation to Climate Change

NASA Astrophysics Data System (ADS)

Lane, T.; Lescaze, M.; Lenorovitz, K.

2013-12-01

High school students and teachers have the opportunity to participate in current research through a Research Mentor/Teacher/Student team approach offered by the VT EPSCoR Center's for Workforce Development and Diversity (CWDD). High school teams (two students and one teacher) participate in a summer residential training week to learn about the research program and learn field and lab research skills. During the academic year they collect data for the university research project from sites near their schools, and formulate an independent research question of their own, guided by a research mentor. Through the year-long program participants develop skills in scientific methods, earth systems thinking and data analysis. Participants experience what research and being a scientist is all about. The research program benefits from a distributed data gathering network, and the high school teams become part of a research community. High school projects have researched the relationship between anticipated increase in storm intensity and frequency in the northeast as a result of climate change, to phosphorus and sediment loading in streams, land use change, and biotic communities, to name a few. This poster, authored by a teacher participants in the program, will share the experience and benefits to their students.

Use of the Seasons and Biomes Project in Climate Change Education

NASA Astrophysics Data System (ADS)

Sparrow, E. B.; Morris, K.; . Jaroensutasinee, M.; Jaroensutasinee, K.; Yule, S.; Boger, R.; Gordon, L. S.; Yoshikawa, K.; Kopplin, M. R.; Verbyla, D. L.

2009-04-01

The Seasons and Biomes Project is an inquiry- and project- based initiative that monitors seasons, specifically their interannual variability, with the goal of increasing primary and secondary students' understanding of the earth system, and engaging them in research as a way of learning science, understanding climate change, contributing to climate change studies and participating in the fourth International Polar Year. International professional development workshops have been conducted in the United States, S. Africa, Germany and most recently in Thailand. Primary and secondary teachers and teacher trainers as well as scientists from Argentina, Bahrain, Cameroon, Canada, Czech Republic, Estonia, Germany, Greenland, India, Peru, Paraguay, Mongolia, Norway, Saudi Arabia, South Africa, Switzerland, Thailand and the United States have participated in the training workshops and are working with students. Available to the Seasons and Biomes participants are the rich array of scientific protocols for investigations on atmosphere/weather, hydrology, soils, land cover biology, and phenology as well as learning activities which have been developed by the Global Learning and Observations to Benefit the Environment program (GLOBE) program (www.globe.gov). GLOBE is an international (109 countries involved) earth/environmental science and education program that brings together scientists, teachers, students and parents in inquiry-based studies and in monitoring the Earth, increasing awareness of and care of the environment, and increasing student achievement across the curriculum. Students conduct their studies at or close to their schools and submit the data they have collected to the Data Archive on the GLOBE website. Seasons and Biomes has developed additional learning activities and measurement protocols such as freshwater ice phenology protocols (freeze-up and break-up) and a frost tube (depth of freezing in soils) protocol that are being used in schools. A mosquito protocol developed by Thai scientists as part of the program to determine abundance and types of mosquitoes that are vectors of malaria and dengue fever, has been successfully tested in two schools and will now be used by students in at least 15 other schools in Thailand. African schools are also interested in using the mosquito protocol. A mosquito protocol to determine start of season in northern latitudes will be tested in Alaskan schools. There is a lot of interest in the effect of climate change on environmental parameters, populations of disease vectors and relationship to disease incidence. Changes in plant and ice phenology can be both indicators and impacts of climate change. Seasons and Biomes has also conducted Pole to Pole climate change videoconferences for Alaskan and Argentinean students, and arctic and antarctic scientists. These gave the students the opportunity to share their observations, ask each other questions, ask the scientists their questions on climate change and discuss topics for research investigations. The videoconferences were followed by web chats and web forums to allow more students from other countries to participate. Students are encouraged to present their studies at science fairs and symposiums and during GLOBE conferences. Indeed some students including Alaskan Native students, have done so.

Examining classroom influences on student perceptions of school climate: the role of classroom management and exclusionary discipline strategies.

PubMed

Mitchell, Mary M; Bradshaw, Catherine P

2013-10-01

There is growing emphasis on the use of positive behavior supports rather than exclusionary discipline strategies to promote a positive classroom environment. Yet, there has been limited research examining the association between these two different approaches to classroom management and students' perceptions of school climate. Data from 1902 students within 93 classrooms that were nested within 37 elementary schools were examined using multilevel structural equation modeling procedures to investigate the association between two different classroom management strategies (i.e., exclusionary discipline strategies and the use of positive behavior supports) and student ratings of school climate (i.e., fairness, order and discipline, student-teacher relationship, and academic motivation). The analyses indicated that greater use of exclusionary discipline strategies was associated with lower order and discipline scores, whereas greater use of classroom-based positive behavior supports was associated with higher scores on order and discipline, fairness, and student-teacher relationship. These findings suggest that pre-service training and professional development activities should promote teachers' use of positive behavior support strategies and encourage reduced reliance on exclusionary discipline strategies in order to enhance the school climate and conditions for learning. Copyright © 2013 Society for the Study of School Psychology. Published by Elsevier Ltd. All rights reserved.

School climate and continuity of adolescent personality disorder symptoms.

PubMed

Kasen, Stephanie; Cohen, Patricia; Chen, Henian; Johnson, Jeffrey G; Crawford, Thomas N

2009-12-01

Schools are key social contexts for shaping development and behavior in youths; yet, little is known of their influence on adolescent personality disturbance. A community-based sample of 592 adolescents was assessed for family and school experiences, Axis I psychiatric disorders, and Axis II personality disorder (PD) symptoms, and followed into young adulthood. Multiple regression analysis was used to estimate associations between adolescent-reported school climate and young adult PD symptoms independent of age, sex, family socioeconomic status; childhood maltreatment; Axis I disorder, PD symptoms, academic grades, and parental punishment in adolescence; and four dimensions of school climate. Schools characterized as high in learning focus were related to cluster B (antisocial, borderline, histrionic, and narcissistic PD) symptom declines, whereas schools characterized as high in opportunities for student autonomy were related to cluster A (paranoid, schizoid, and schizotypal PD) symptom declines. In contrast, schools characterized as conflictual or supporting interpersonal informality/familiarity among students and teachers were related to increases in cluster A symptoms and cluster C (avoidant, dependent, and obsessive-compulsive PD) symptoms. Schools may exert both positive and negative influences on continuity of adolescent personality disturbance. The role of the school in guiding young people toward more favorable developmental pathways and alleviating personality disturbance is discussed.

A prospective study of differential sources of school-related social support and adolescent global life satisfaction.

PubMed

Siddall, James; Huebner, E Scott; Jiang, Xu

2013-01-01

This study examined the cross-sectional and prospective relationships between three sources of school-related social support (parent involvement, peer support for learning, and teacher-student relationships) and early adolescents' global life satisfaction. The participants were 597 middle school students from 1 large school in the southeastern United States who completed measures of school social climate and life satisfaction on 2 occasions, 5 months apart. The results revealed that school-related experiences in terms of social support for learning contributed substantial amounts of variance to individual differences in adolescents' satisfaction with their lives as a whole. Cross-sectional multiple regression analyses of the differential contributions of the sources of support demonstrated that family and peer support for learning contributed statistically significant, unique variance to global life satisfaction reports. Prospective multiple regression analyses demonstrated that only family support for learning continued to contribute statistically significant, unique variance to the global life satisfaction reports at Time 2. The results suggest that school-related experiences, especially family-school interactions, spill over into adolescents' overall evaluations of their lives at a time when direct parental involvement in schooling and adolescents' global life satisfaction are generally declining. Recommendations for future research and educational policies and practices are discussed. © 2013 American Orthopsychiatric Association.

Exploring the Climate Literacy Development Utilizing a Learning Progressions Approach

NASA Astrophysics Data System (ADS)

Drewes, A.; Breslyn, W.; McGinnis, J. R.; Hestness, E.; Mouza, C.

2017-12-01

Climate change encompasses a broad and complex set of concepts that is often challenging for students and educators. Using a learning progressions framework, in this exploratory study we report our efforts to identify, describe, and organize the development of learners' understanding of climate change in an empirically supported learning progression (LP). The learning progression framework is a well suited analytical tool for investigating how student thinking develops over time (Duschl et al., 2007). Our primary research question is "How do learners progress over time from an initial to a more sophisticated understanding of climate change?"We followed a development process that involved drafting a hypothetical learning progression based on the science education research literature, consensus documents such as the Next Generation Science Standards and the Atlas of Science Literacy. Additionally, we conducted expert reviews with both climate scientists and educational researchers on the content and pedagogical expectations. Data are then collected from learners, which are used to modify the hypothetical learning progression based on how well it describes actual student learning. In this current analysis, we present findings from written assessments (N=294) and in-depth interviews (n=27) with middle school students in which we examine their understanding of the role of human activity, the greenhouse effect as the mechanism of climate change, local and global impacts, and strategies for the adaptation and mitigation of climate change. The culmination of our research is a proposed, empirically supported LP for climate change. Our LP is framed by consideration of four primary constructs: Human Activity, Mechanism, Impacts, and Mitigation and Adaptation. The conditional LP provides a solid foundation for continued research as well as providing urgently needed guidance to the education community on climate change education (for curriculum, instruction, and assessment). Based on consensus documents like NGSS, the research literature, and data collected in our investigation, as well as review by practicing climate scientists and educational researchers, the climate change LP represents a robust and empirically supported description of how climate change understanding develops over time.

Global Climate Change: Using Field Studies to Prepare the Next Generation of Scientists

NASA Astrophysics Data System (ADS)

Arnold, T. C.; Hare, J.

2004-05-01

Global Climate Change is a new and invigorating concept in the pre-college classroom. To some it portends the altering of the Earth's climate by introducing anthropogenic influences and for others the natural progression of the Earth's systems. Regardless, climate change involves a plethora of environmental interactions and comprehension is a challenge for both teachers and students. This paper addresses a field studies program that prepares students to complete research projects associated with climate models affecting montane environments. It emphasizes a partnership between researchers from universities, government agencies, and public schools and their support of pre-college students in inquiry learning and research activities. Beginning in 1994 students from a Pennsylvania high school and schools in Scotland have engaged in biannual holistic studies of montane and glacial environments with the objective of completing investigations concerning the energy budgets of these environments. This paper will focus on 2000 and 2002, and the support and partnership of Dr. Jeff Hare and CIRES in designing, supporting, and providing professional interpretations,while assisting teachers and students toward the completion of recognized papers regarding climate studies. Introducing students to the employment and operation of complex field equipment will be discussed.

From Bedlam to Decorum: Improving Lunchtime Behaviour

ERIC Educational Resources Information Center

Aviani, Robert

2006-01-01

In many middle schools, poor student lunchtime behaviour is an ongoing problem. Such behaviour can have a detrimental effect on a school's climate and culture, which can in turn degrade the quality of learning that occurs in the classroom. As a result, improving students' lunchtime behaviour should be a priority for staff. One solution is to make…

Reducing Disruptive Behaviours and Improving Classroom Behavioural Climate with Class-Wide Positive Behaviour Support in Middle Schools

ERIC Educational Resources Information Center

Närhi, Vesa; Kiiski, Tiina; Savolainen, Hannu

2017-01-01

Disruptive behaviour in classrooms is a significant challenge for learning in schools and a risk factor for students' academic achievement and a significant source of teachers' work-related stress. Earlier research shows that clear behavioural expectations, monitoring students' adherence to them and behaviour-specific praise are effective…

Launching a Successful Academic High School Experience and Future: Ninth Grade Climate Reform

ERIC Educational Resources Information Center

Whitehead, Jackie F.

2012-01-01

The purpose of this dissertation is to present a number of academic perspectives for analysis and understanding in the attempt to progress educational situations. Specifically, the study takes a look at student and learning community transition into the high school environment and, ultimately, by doing so help meet graduation goals. Its intent is…

"Thank You for Being Republican": Negotiating Science and Political Identities in Climate Change Learning

ERIC Educational Resources Information Center

Walsh, Elizabeth M.; Tsurusaki, Blakely K.

2018-01-01

When engaging with socioscientific issues, learners act at the intersection of scientific, school, and other societal communities, drawing on knowledge, practices, and identities from both in and out of the classroom to address problems as national or global citizens. We present three case studies of high school students whose classroom…

Albinism in Botswana Junior Secondary Schools: A Double Case Study

ERIC Educational Resources Information Center

Dart, Gareth; Nkanotsang, Tiroyaone; Chizwe, Ose; Kowa, Lily

2010-01-01

Pupils with albinism potentially face a number of challenges in accessing quality education in schools in Botswana. Physical issues such as poor eyesight related to the condition and the problems of sensitive skin in such a dry and warm climate are both contributing factors to making learning problematic for some pupils. This study by Gareth Dart…

LGBTQ Literature in Middle School Classrooms: Possibilities for Challenging Heteronormative Environments

ERIC Educational Resources Information Center

Dinkins, Elizabeth G.; Englert, Patrick

2015-01-01

This paper uses a case study approach to examine how the heteronormative nature of one middle school setting and classroom environment shapes the climate of safety, support and learning for LGBTQ students when they are engaged in studying a novel with a gay character. Heteronormative environments inform and shape positioning of and by students and…

Code of Conduct: Safety, Discipline, and School Climate. Quality Counts, 2013

ERIC Educational Resources Information Center

Education Week, 2013

2013-01-01

This 17th edition of "Education Week's" annual "Quality Counts" report takes aim at an issue freighted with emotional as well as policy implications: the impact of a school's social and disciplinary environment on students' ability to learn and on the teachers and administrators tasked with guiding them. National initiatives to improve schools…

The Changing Climate of Teaching and Learning School Geography: The Case of Singapore

ERIC Educational Resources Information Center

Chang, Chew-Hung

2012-01-01

Reflecting on a personal journey as a geography student, an academic, an educator and a teacher trainer, the article provides a critical narrative of the state of school geography in Singapore and argues that its development has remained relevant to the changing issues at a global level. Using personal reflections and document analyses, school…

Turning Misinformation into Climate Change Education

NASA Astrophysics Data System (ADS)

Borah, N.; Cook, J.

2017-12-01

Misinformation reduces science literacy and interferes with new learning. This undermines the application of science to understanding and addressing important societal issues. Intentional misinformation and fake news is of growing concern to the scientists, educators and policymakers. Specifically, misinformation about human-caused climate change has become prominent in recent times creating confusion among the public. Hence, interventions that inoculate people against climate change misinformation are very much necessary. One of the most promising applications of inoculation is in the classroom, using a teaching approach known as misconception-based learning. This involves explaining scientific concepts while directly refuting related misconceptions. Misconception-based learning is a powerful way to neutralize the influence of climate change misinformation by increasing both science literacy and critical thinking skills. Students do not possess as many erroneous preconceptions about climate change relative to adults and hence correcting such misconceptions among students is more effective using this teaching approach. The misconception-based teaching approach has a number of benefits. It results in greater and longer-lasting learning gains relative to standard lessons. It equips students with the tools and knowledge to distinguish between facts and myths and increases confidence to engage in constructive discussion with family and friends about climate change. Further, research has shown that students have an effect on parents' environmental attitudes and behavior. Consequently, misconception-based learning presents the opportunity to reach the adult community through the students. We have developed a high school climate change curriculum based on the misconception-based learning framework. Our intent is to run a pilot project that tests the impact of this curriculum on students' climate perceptions, and any second-order influence on their parents. This research project will establish the effectiveness of this teaching approach in raising climate literacy, neutralizing the influence of misinformation, and equipping students with the tools and confidence to converse with their friends and family about climate change.

Evaluating the Usability of a Professional Modeling Tool Repurposed for Middle School Learning

ERIC Educational Resources Information Center

Peters, Vanessa L.; Songer, Nancy Butler

2013-01-01

This paper reports the results of a three-stage usability test of a modeling tool designed to support learners' deep understanding of the impacts of climate change on ecosystems. The design process involved repurposing an existing modeling technology used by professional scientists into a learning tool specifically designed for middle school…

Examining Authentic Intellectual Work with a Historical Digital Documentary Inquiry Project in a Mandated State Testing Environment

ERIC Educational Resources Information Center

Swan, Kathy; Hofer, Mark; Swan, Gerry

2011-01-01

Three criteria for meaningful student learning--construction of knowledge, disciplined inquiry, and value beyond school--are assessed as authentic learning outcomes for an implementation of a digital documentary project in two fifth grade history classrooms where teachers' practices are constrained by a high-stakes testing climate. In all three…

A Model for Local Experiential Learning: Teacher Workshop on Mangroves, Oceans & Climate in Kosrae

NASA Astrophysics Data System (ADS)

Maloney, A. E.; Sachs, J. P.; Barros, C.; Low, M.

2016-02-01

A curriculum for an intensive one-day workshop about mangroves, oceans, and climate has been developed for school teachers in the Federated States of Micronesia. The goals of the workshop are for teachers/attendees to be able to (i) explain what salinity is and describe how it varies from the ocean to the river, (ii) explain what a mangrove is and describe adaptations mangroves have developed that allow them to live in saline or brackish water and adjust to changing sea level, and (iii) develop a grade-appropriate poster on mangroves or salinity and one interactive activity that uses the poster to engage students in learning. These objectives are accomplished by field trips to the ocean and mangrove swamp, where each participant learns how to measure salinity and identify mangrove species. The hands-on field component is followed by a poster development session where participants design, present, and share feedback on their posters that they will bring back to their classrooms. This experience allows schoolteachers to intimately explore their coastal ecosystems and gain new perspectives about their environment that they can take back to their students. The workshop was designed through a collaborative effort between Pacific Resources for Education and Learning (PREL) NSF Pacific Climate Education Partnership, University of Washington professors, graduate students and undergraduate students, Kosrae Department of Education, Kosrae Island Resource Management Authority (KIRMA), Kosrae Island Conservation and Safety Organization (KCSO), and local Kosraean schoolteachers and administrators. The workshop was offered to elementary school teachers from 4 of 5 school districts in 2013, 2014, and 2015, led by University of Washington scientists and PREL. Local education officials and PREL staff will lead future workshops.

Classroom climate and science-related attitudes of junior high school students in Taiwan

NASA Astrophysics Data System (ADS)

Lin, Bao-Shan; Crawley, Frank E., III

Differences in classroom climate and science related attitudes were investigated among junior high school science classes and students in Taiwan. The sample consisted of 1,269 students enrolled in 40 science classes distributed equally among ten junior high schools, five metropolitan and five rural. Classes were further classified according to sex (21 boys and 19 girls classes) and ability (19 high and 21 low ability classes). Using the Learning Environment Inventory (Anderson, Walberg, & Fraser, 1982) to measure climate, science classes in metropolitan schools, more than rural, were found to be characterized by Speed, Friction, Favoritism, Difficulty, Cliqueness, and Competitiveness. No differences were found in the classroom climates of classes in which students were grouped according to sex or ability. Using the Test of Science-Related Attitudes (Fraser, 1981), students in science classes in metropolitan schools, in contrast to rural, expressed more positive attitudes toward the Social Implications of Science, Adoption of Scientific Attitudes, and Attitude to Scientific Inquiry. Boys more than girls recorded high scores on Leisure Interest in Science and Career Interest in Science. High ability students were found to have higher scores on Attitude to Scientific Inquiry than did low ability students. When examining the relationship between the 15 subscale scores of the LEI and the seven subscale scores of the TOSRA for the 40 classes, only 9 out of 105 correlations proved to be significant. Most differences in climate, attitude, and their interactions were attributed to school location rather than to student characteristics.

SLICEIT and TAHMO Partnerships: Students Local and International Collaboration for Climate and Environmental Monitoring, Technology Development, Education, Adaptation and Mitigation

NASA Astrophysics Data System (ADS)

Aishlin, P. S.; Selker, J. S.

2015-12-01

Climate change understanding and impacts vary by community, yet the global nature of climate change requires international collaboration to address education, monitoring, adaptation and mitigation needs. We propose that effective climate change monitoring and education can be accomplished via student-led local and international community partnerships. By empowering students as community leaders in climate-environmental monitoring and education, as well as exploration of adaptation/mitigation needs, well-informed communities and young leadership are developed to support climate change science moving forward. Piloted 2013-2015, the SLICEIT1 program partnered with TAHMO2 to connect student leaders in North America, Europe and Africa. At the international level, schools in the U.S.A and Netherlands were partnered with schools in Ghana, Kenya, and Uganda for science and cultural exchange. Each school was equipped with a climate or other environmental sensing system, real-time data publication and curricula for both formal and informal science, technology, engineering and math education and skill development. African counterparts in TAHMO's School-2-School program collect critically important data for enhanced on-the-ground monitoring of weather conditions in data-scarce regions of Africa. In Idaho, student designed, constructed and installed weather stations provide real time data for classroom and community use. Student-designed formal educational activities are disseminated to project partners, increasing hands-on technology education and peer-based learning. At the local level, schools are partnered with a local agency, research institute, nonprofit organization, industry and/or community partner that supplies a climate science expert mentor to SLICEIT program leaders and teachers. Mentor engagement is facilitated and secured by program components that directly benefit the mentor's organization and local community via climate/environment monitoring, student workforce skill development, community education, and/or adaptation/mitigation activities. Students are motivated by advanced real-world skill development, leadership opportunity, internship, community service and opportunity for international peer communication.

Promoting Climate And Data Literacy: University Courses Engaging Students In Effective Teaching, Learning, Communication And Outreach Practices.

NASA Astrophysics Data System (ADS)

Halversen, C.; McDonnell, J. D.; Apple, J. K.; Weiss, E. L.

2016-02-01

Two university courses, 1) Promoting Climate Literacy and 2) Climate and Data Literacy, developed by the University of California Berkeley provide faculty across the country with course materials to help their students delve into the science underlying global environmental change. The courses include culturally responsive content, such as indigenous and place-based knowledge, and examine how people learn and consequently, how we should teach and communicate science. Promoting Climate Literacy was developed working with Scripps Institution of Oceanography, University of Washington, and Western Washington University. Climate and Data Literacy was developed with Rutgers University and Padilla Bay National Estuarine Research Reserve, WA. The Climate and Data Literacy course also focuses on helping students in science majors participating in U-Teach programs and students in pre-service teacher education programs gain skills in using real and near-real time data through engaging in investigations using web-based and locally-relevant data resources. The course helps these students understand and apply the scientific practices, disciplinary concepts and big ideas described in the Framework for K-12 Science Education and the Next Generation Science Standards (NGSS). This course focuses on students interested in teaching middle school science for three reasons: (1) teachers often have relatively weak understandings of the practices of science, and of complex Earth systems science and climate change; (2) the concepts that underlie climate change align well with the NGSS; and (3) middle school is a critical time for promoting student interest in science and for recruitment to STEM careers and lifelong climate literacy. This course is now being field tested in a number of U-Teach programs including Florida State University, Louisiana State University, as well as pre-service teacher education programs at California State University East Bay, and Western Washington University. The Promoting Climate Literacy course is focused on graduate and undergraduate science students interested in learning how to more effectively communicate climate science, while participating in outreach opportunities with the public. The course has been disseminated through a workshop for faculty at 17 universities.

Comparing student and staff perceptions of the "Educational Climate" in Spanish Dental Schools using the Dundee Ready Education Environment Measure.

PubMed

Tomás, I; Aneiros, A; Casares-de-Cal, M A; Quintas, V; Prada-López, I; Balsa-Castro, C; Ceballos, L; Gómez-Moreno, G; Llena, C; López-Jornet, P; Machuca, M C; Palés, J

2018-02-01

To compare the perceptions of students and teachers of the "Educational Climate" (EC) in Spanish public dental schools. A group of 1064 students and 354 teachers from six Spanish public dental schools responded to the DREEM questionnaire. This has 50 items grouped into five subscales: perception of learning (Learning); perception of teachers (Teachers); academic self-perceptions (Academic); perception of the atmosphere in the faculty (Atmosphere); and social self-perceptions (Social). The DREEM scale provides results for each item, each subscale and the overall EC. The EC scores were 123.2 (61.6%) for the students and 134.1 (67.0%) for the teachers (P<.001). The scores of the students and teachers for the subscales were, respectively: 27.9 (58.1%) and 30.2 (63.0 %) for Learning (P<.001); 26.8 (60.9%) and 32.6 (74.1%) for Teachers (P<.001); 20.7 (64.7%) and 20.5 (64.0%) for Academic (P=.333); 29.9 (62.3%) and 33.7 (70.3%) for Atmosphere (P<.001); and 17.9 (64.0%) and 16.9 (60.5%) for Social (P<.001). The students identified six problematic items (12.0 %) compared to only two (4.0 %) highlighted by the teachers. The students and teachers considered the EC to be "more positive than negative" in Spanish public dental schools; and the different subscales to be "positive and acceptable." The teachers did, however, evaluate the EC, and specifically the learning-teaching process, more positively than their students, identifying fewer problematic educational aspects. Both groups agreed on the need to: improve support systems for students who suffer from stress and reduce teaching based on "factual learning." © 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.

Learning and engagement through natural history museums*

PubMed Central

Lawrence, Martin; Oliver, Mary; Reiss, Michael J.

2018-01-01

Abstract This review examines how natural history museums (NHMs) can enhance learning and engagement in science, particularly for school-age students. First, we describe the learning potential of informal science learning institutions in general, then we focus on NHMs. We review the possible benefits of interactions between schools and NHMs, and the potential for NHMs to teach about challenging issues such as evolution and climate change and to use digital technologies to augment more traditional artefacts. We conclude that NHMs can provide students with new knowledge and perspectives, with impacts that can last for years. Through visits and their on-line presence, NHMs can help students see science in ways that the school classroom rarely can, with opportunities to meet scientists, explore whole topic exhibitions, engage with interactive displays and employ digital technologies both in situ and to support learning in the school science classroom. Although these interactions have the potential to foster positive cognitive, affective and social outcomes for students, there is a lack of reliable measures of the impact of NHM experiences for students. Opportunities to foster relationships between NHM staff and teachers through professional development can help articulate shared goals to support students’ learning and engagement.

Learning and engagement through natural history museums.

PubMed

Mujtaba, Tamjid; Lawrence, Martin; Oliver, Mary; Reiss, Michael J

2018-01-01

This review examines how natural history museums (NHMs) can enhance learning and engagement in science, particularly for school-age students. First, we describe the learning potential of informal science learning institutions in general, then we focus on NHMs. We review the possible benefits of interactions between schools and NHMs, and the potential for NHMs to teach about challenging issues such as evolution and climate change and to use digital technologies to augment more traditional artefacts. We conclude that NHMs can provide students with new knowledge and perspectives, with impacts that can last for years. Through visits and their on-line presence, NHMs can help students see science in ways that the school classroom rarely can, with opportunities to meet scientists, explore whole topic exhibitions, engage with interactive displays and employ digital technologies both in situ and to support learning in the school science classroom. Although these interactions have the potential to foster positive cognitive, affective and social outcomes for students, there is a lack of reliable measures of the impact of NHM experiences for students. Opportunities to foster relationships between NHM staff and teachers through professional development can help articulate shared goals to support students' learning and engagement.

El recreo en la escuela primaria: Que indica la investigacion? (Recess in Elementary School: What Does the Research Say?) ERIC Digest.

ERIC Educational Resources Information Center

Jarrett, Olga S.

Compared to the rest of the school day, recess is a time when children have more freedom to choose what they want to do and with whom. In light of the current climate of school accountability, this Spanish-language Digest discusses research on recess and its relationship to learning, social development, and child health, as well as research on…

Exploring Students' Epistemological Knowledge of Models and Modelling in Science: Results from a Teaching/Learning Experience on Climate Change

ERIC Educational Resources Information Center

Tasquier, Giulia; Levrini, Olivia; Dillon, Justin

2016-01-01

The scientific community has been debating climate change for over two decades. In the light of certain arguments put forward by the aforesaid community, the EU has recommended a set of innovative reforms to science teaching such as incorporating environmental issues into the scientific curriculum, thereby helping to make schools a place of civic…

Formal education as an avenue for community action on climate change

NASA Astrophysics Data System (ADS)

Cordero, E.

2017-12-01

Green Ninja started at San Jose State University as an educational initiative to inspire youth action on climate change. We created educational videos, games and lesson plans that promoted climate science literacy and pro-environmental behavior. Although some teachers found our content valuable, we came to learn that the overriding decisions about course curriculum come from the school district level. Should we want to scale in a manner that might really provide an environmental benefit, we needed to learn about school district needs and to develop a product that solves their problems. This presentation will discuss our journey from value propositions to empathy for our clients, and how we came to realize that the best approach for achieving our common goals was through the commercial marketplace. We will share data from some of our early adopters that suggests that formal education can both achieve district goals while also delivering environmental benefits. We will also describe the value of partnerships and how leveraging support from communities with aligning interests are improving our chances of success.

Communicating climate science to high school students in the Arctic: Adventure Learning @ Greenland

NASA Astrophysics Data System (ADS)

Hougham, R. J.; Miller, B.; Cox, C. J.

2012-12-01

Adventure Learning @ Greenland (AL@GL) engaged high school students in atmospheric research in the Arctic and in local environments to enhance climate literacy. The overarching objective for this project was to support climate literacy in high school students, specifically the concept of energy exchange between the Earth, atmosphere, and space. The goal then is to produce a model of education and outreach for remote STEM research that can be used to meaningfully engage K-12 and public communities. Over the course of the program experience, students conducted scientific inquiry associated with their place that supported a more focused science content at a field location. Approximately 45 students participated in the hybrid learning environments as part of this project at multiple locations in Idaho, USA, and Greenland. In Greenland, the Summit Camp research station located on the Greenland Ice Sheet was the primary location. The AL@GL project provided a compelling opportunity to engage students in an inquiry-based curriculum alongside a cutting-edge geophysical experiment at Summit: the Integrated Characterization of Energy, Clouds, Atmospheric state, and Precipitation at Summit (ICECAPS) experiment. ICECAPS measures parameters that are closely tied to those identified in student misconceptions. Thus, ICECAPS science and the AL@ approach combined to create a learning environment that was practical, rich, and engaging. Students participating in this project were diverse, rural, and traditionally underrepresented. Groups included: students participating in a field school at Kangerlussuaq, Greenland and Summit Station as members of the JSEP; students at MOSS will were part of the Upward Bound Math Science (UBMS) and HOIST (Helping Orient Indian Students and Teachers) project. These project serve high school students who are first college generation and from low-income families. JSEP is an international group of students from the United States, Greenland, and Denmark. As a result of this project a model for education and outreach for remote science research was developed. The AL@ GL project was interested in the impact on student science and climate literacy. Survey data was collected from student participants two times and the surveys included questions pertaining to student knowledge of atmospheric science and climate and their impressions on scientific inquiry, and student interest and skills in technology. A subset of students were interviewed using a semi-structured, open-ended protocol at the end of the AL@ GL expedition. Beyond reaching 45 students directly through AL@GL instruction and field experiences, the web-based platform for communicating within this project reached over 10,000 site visits. This platform can be viewed at adventurelearningat.org and includes photos, videos and authentic narratives of the students and scientists involved with the project. The Adventure Learning @ (AL@) approach presents a powerful tool for teaching and learning exploring novel places through technology-rich curricula. By defining problems of local interest, and working with experts with local knowledge who have connections to the community, students can come to think of themselves as experts, scientists, and problem solvers within their own places.

Teaching Science IBL, a shared experience between schools

NASA Astrophysics Data System (ADS)

Ruas, Fatima; Carneiro, Paula

2015-04-01

Key words: Problem based learning, Inquiry-based learning, digital resources, climate changes The inquiry-based learning approach is applied by watching a video about the last rigorous winter and its effects. The teacher starts by posing some questions related with the video news: Why only after a 20 or 30 years from now, how will it be possible to explain the occurrence of two storms in just a month's time? Is our climate effectively changing? What is the difference between weather and climate? The teacher helps students to think about where and how they can find information about the subject, providing/teaching them suitable tools to access and use information. The teacher plays the role of mentor/facilitator. Students should proceed to their research, presenting the results to their colleagues, discussing in groups, doing brainstorming and collaborate in the learning process. After the discussion the students must present their conclusions. The main goals are: explain the difference between weather and climate; understand whether or not climate change exists; identify the causes of climate change and extreme weather events; raising awareness among young people about environmental issues of preservation and sustainability of our planet. The results globally show that this educational approach motivates students' towards science, helping them to solve problems from daily life, as well as the collaborative working. The cognitive strand continues to be the most valued by pupils.

Service-Learning in the Undergraduate Geoscience Classroom: Establishing Community Partnerships to Enhance Education in Climate Change Science in Local Schools

NASA Astrophysics Data System (ADS)

Joseph, L. H.; Faust, R.

2009-12-01

The complexity of the science surrounding global climate change makes effective communication about this issue to the public difficult, especially at a time when many would argue that public understanding of science in general has decreased. As a service-learning project, a partnership was created between an upper-level environmental studies climate change class at Ursinus College (UC) and the UC Science In Motion (SIM) program to construct an appropriate lab activity that would foster scientific knowledge and abilities in high school students particularly in relation to basic climate change science. The Pennsylvania SIM program is a state-funded initiative to make a selection of lab activities, equipment, and expertise available to teachers at secondary schools at no cost to the schools with the goal to “strengthen the quality of science education for all.” The twelve SIM sites are dispersed throughout PA and serve over 200 school districts overall. The UC SIM program has served over 30 local schools with labs and activities from which the teachers may select. Prior to the partnership discussed here, there were no labs in the UC SIM program that incorporated the concepts of climate change and though a “drop-off” climate change lab was desired, the staff would have no time to design one. The adaptation of a previously written lab set on climate change was assigned as a project for the 9 environmental studies majors at UC enrolled in a Fall 2008 course exploring the science of global climate change. While an advanced course within the environmental studies curriculum, the science backgrounds of the college students themselves were mixed, ranging from science majors to students for whom this was the first or second science course taken at college. In addition to the typical load of coursework, the students worked in small groups on this project throughout the semester, collecting the supplies, testing and adapting the labs, creating a video to guide users through the lab, visiting a local high school for a trial run, and editing and writing the worksheets and teacher guides. It was necessary for the students to clearly understand the concepts behind the labs so the activities could be adapted and presented appropriately. Effective communication of the concepts through visuals and written work was also important. Continued coordination with UC SIM staff was required and helpful and the final product was turned over to the UC SIM for further adaptation and use. The college students appreciated the positive impact the lab could have on climate change science education even after the end of the semester and found it both motivating and rewarding. Partnering with an organization already established and utilized as a source of science education activities for the local school districts ensured quick dissemination of the lab activity. Between 1/09-6/09, ~12 teachers have used this global climate change lab with ~500 students of mixed academic levels. The lab has received positive feedback from teachers and supplies have been duplicated to meet demand, likely indicative of a desire for accessible lab activities within the field of environmental science.

Cause or effect? The relationship between student perception of the medical school learning environment and academic performance on USMLE Step 1.

PubMed

Wayne, Sharon J; Fortner, Sally A; Kitzes, Judith A; Timm, Craig; Kalishman, Summers

2013-05-01

A school's learning environment is believed to influence academic performance yet few studies have evaluated this association controlling for prior academic ability, an important factor since students who do well in school tend to rate their school's environment more highly than students who are less academically strong. To evaluate the effect of student perception of the learning environment on their performance on a standardized licensing test while controlling for prior academic ability. We measured perception of the learning environment after the first year of medical school in 267 students from five consecutive classes and related that measure to performance on United States Medical Licensing Examination (USMLE) Step 1, taken approximately six months later. We controlled for prior academic performance by including Medical College Admission Test score and undergraduate grade point average in linear regression models. Three of the five learning environment subscales were statistically associated with Step 1 performance (p < 0.05): meaningful learning environment, emotional climate, and student-student interaction. A one-point increase in the rating of the subscales (scale of 1-4) was associated with increases of 6.8, 6.6, and 4.8 points on the Step 1 exam. Our findings provide some evidence for the widely held assumption that a positively perceived learning environment contributes to better academic performance.

Young People's Confidence in School, Community, and the Future: Why It Matters and What We Can Do about It

ERIC Educational Resources Information Center

Freiler, Christa

2012-01-01

The Canadian Education Association (CEA) has just completed a research project that looked at young people's confidence in their learning environments and their future. We know that students' future trust in institutions is significantly shaped by their school experiences, in particular by whether there is an open climate for classroom discussion…

Buoyed on All Sides: A Network of Support Guides Teacher Leaders in High-Needs Schools

ERIC Educational Resources Information Center

Suescun, Marisa; Romer, Toby; MacDonald, Elisa

2012-01-01

The idea of teacher leadership holds an immense and intuitive appeal. Most educators agree that teacher leaders are essential to fostering a climate of authentic and robust leadership and learning across a school. Teacher leadership is peer leading at its most authentic, demanding, and empowering. While the value of teacher leadership may be…

Teaching College Writing in a High School Setting: The Impact of Concurrent Enrollment on Teacher Learning and Practice

ERIC Educational Resources Information Center

Kirking, Cornelia Anne

2016-01-01

In today's educational climate, in which preparing all K-12 students to succeed in college and career is paramount, a prominent concern is to ensure that students leave high school with "college level" writing skills. Notably, these discussions revolve around ensuring students are ready to "cross the threshold" between high…

Educational Technology: Identifying the Effects.

ERIC Educational Resources Information Center

Hawkes, Mark; Cambre, Marge

2001-01-01

An evaluation of two school "telecommunities" in Ohio and South Dakota demonstrated the importance of studying a range of technology effectiveness indicators: standardized measures, behavior, stakeholder involvement, technology competency, multicultural exchange, equity, new student and teacher roles, learning climate, teacher…

Socioemotional self-perceptions, family climate, and hopeful thinking among students with learning disabilities and typically achieving students from the same classes.

PubMed

Idan, Orly; Margalit, Malka

2014-01-01

This study aimed at examining the adjustment of students with learning disabilities (LD) and at exploring the mediating role of hope. By means of a multidimensional approach, the interactions between risk and protective factors emerging from internal and external resources among 856 high school students (10th to 12th grades) were analyzed. A total of 529 typically achieving students and 327 students with LD attending general education classes in seven high schools completed seven instruments measuring sense of coherence, basic psychological needs, loneliness, family climate, hope, academic self-efficacy, and effort. The students' achievements in English, history, and mathematics were collected. The analysis used structural equation modeling, and the results emphasized the significant role of hope as a mediator between risk and protective factors and academic self-efficacy and its significance for students with and without LD in explaining achievements and effort investment.

Two Contrasting Approaches to Building High School Teacher Capacity to Teach About Local Climate Change Using Powerful Geospatial Data and Visualization Technology

NASA Astrophysics Data System (ADS)

Zalles, D. R.

2011-12-01

The presentation will compare and contrast two different place-based approaches to helping high school science teachers use geospatial data visualization technology to teach about climate change in their local regions. The approaches are being used in the development, piloting, and dissemination of two projects for high school science led by the author: the NASA-funded Data-enhanced Investigations for Climate Change Education (DICCE) and the NSF funded Studying Topography, Orographic Rainfall, and Ecosystems with Geospatial Information Technology (STORE). DICCE is bringing an extensive portal of Earth observation data, the Goddard Interactive Online Visualization and Analysis Infrastructure, to high school classrooms. STORE is making available data for viewing results of a particular IPCC-sanctioned climate change model in relation to recent data about average temperatures, precipitation, and land cover for study areas in central California and western New York State. Across the two projects, partner teachers of academically and ethnically diverse students from five states are participating in professional development and pilot testing. Powerful geospatial data representation technologies are difficult to implement in high school science because of challenges that teachers and students encounter navigating data access and making sense of data characteristics and nomenclature. Hence, on DICCE, the researchers are testing the theory that by providing a scaffolded technology-supported process for instructional design, starting from fundamental questions about the content domain, teachers will make better instructional decisions. Conversely, the STORE approach is rooted in the perspective that co-design of curricular materials among researchers and teacher partners that work off of "starter" lessons covering focal skills and understandings will lead to the most effective utilizations of the technology in the classroom. The projects' goals and strategies for student learning proceed from research suggesting that students will be more engaged and able to utilize prior knowledge better when seeing the local and hence personal relevance of climate change and other pressing contemporary science-related issues. In these projects, the students look for climate change trends in geospatial Earth System data layers from weather stations, satellites, and models in relation to global trends. They examine these data to (1) reify what they are learning in science class about meteorology, climate, and ecology, (2) build inquiry skills by posing and seeking answers to research questions, and (3) build data literacy skills through experience generating appropriate data queries and examining data output on different forms of geospatial representations such as maps, elevation profiles, and time series plots. Teachers also are given the opportunity to have their students look at geospatially represented census data from the tool Social Explorer (http://www.socialexplorer.com/pub/maps/home.aspx) in order to better understand demographic trends in relation to climate change-related trends in the Earth system. Early results will be reported about teacher professional development and student learning, gleaned from interviews and observations.

Learning from each other: results of a decade of close collaboration between scientists and educators at CMMAP

NASA Astrophysics Data System (ADS)

Denning, S.; Burt, M. A.; Jones, B.

2015-12-01

Since 2006, the Center for Multiscale Modeling of Atmospheric Processes (CMMAP) has sponsored a fertile collaboration among researchers in many fields, graduate and undergraduate student, K-12 teachers, science outreach professionals, and evaluators. This collaboration included groundbreaking work in climate modeling, ecology, political science, sociology, psychology, and English. At the undergraduate level, we engaged more than 80 faculty in 26 Departments at a major public university who now teach one another's content in dozens of classes. Hundreds of English Composition students learned about climate change while developing basic writing skills. We also worked very closely with public schools to develop and test curriculum enhancement kits for teaching standards-aligned climate science in K-12 classrooms and built a successful series of Professional Development workshops for teachers at three different grade levels. Nearly 200,000 students participated in these programs in public schools and millions of individuals around the world used our web-based tools. The success of this collaborative program is apparent in traditional metrics and assessments of content knowledge. Equally important, the sustained interaction with education professionals had a substantial impact on the climate scientists and faculty involved in the program, and on our graduate students. We outline some of the key elements that made CMMAP's program successful, and offer suggestions for other institutions seeking to enhance climate literacy.

ROLE OF INSTITUTIONAL CLIMATE IN FOSTERING DIVERSITY IN BIOMEDICAL RESEARCH WORKFORCE: A CASE STUDY

PubMed Central

Butts, Gary C.; Hurd, Yasmin; Palermo, Ann-Gel S.; Delbrune, Denise; Saran, Suman; Zony, Chati; Krulwich, Terry A.

2012-01-01

This article reviews the barriers to diversity in biomedical research, describes the evolution and efforts to address climate issues to enhance the ability to attract, retain and develop underrepresented minorities (URM) - underrepresented minorities whose underrepresentation is found both in science and medicine, in the graduate school biomedical research doctoral programs (PhD and MD/PhD) at Mount Sinai School of Medicine (MSSM). We also describe the potential beneficial impact of having a climate that supports diversity and inclusion in the biomedical research workforce. MSSM diversity climate efforts are discussed as part of a comprehensive plan to increase diversity in all institutional programs PhD, MD/PhD, MD, and at the residency, post doctoral fellow, and faculty levels. Lessons learned from four decades of targeted programs and activities at MSSM may be of value to other institutions interested in improving diversity in the biomedical science and academic medicine workforce. PMID:22786740

Investigating the Climate Change Beliefs, Knowledge, Behaviors, and Cultural Worldviews of Rural Middle School Students and their Families During An Out-of-School Intervention: A Mixed-Methods Study

NASA Astrophysics Data System (ADS)

Gutierrez, Kristie Susan

In a recent nationwide survey, 63% of American adults believe that there is global warming, yet 52% received a 'grade' of 'F' on climate change knowledge and beliefs. Climate change is a politically-charged topic in the 21st century. Even for those who support the 97% of scientists who assert that climate change is occurring, many are still uncertain about the role that humans play in this complex process. This mixed-methods study examined the climate change beliefs, content knowledge, worldviews, and behaviors of rural middle school students and their families in four rural, high poverty school districts in the Southeastern United States (US). The students, who ranged from 5-8th grades, were part of an after school STEM Career Club program that met for two hours, six times per semester. STEM Club students (N = 243) and selected students' families (n = 15) interacted with climate change activities and materials in the student clubs and in an at-home intervention. Quantitative pre- and post-intervention surveys were used to measure any changes in climate change content knowledge and beliefs as well as participants' worldviews. Qualitative audio data gathered from at-home intervention activities with students and their family members, as well as during family dyad interviews, was coded using the Determinants of Behavior framework that reflected climate change awareness, during and post-intervention. This embedded mixed-methods design with climate change education was designed to reflect place-based examples in these rural, southeastern US communities, and to empower families to see the relevance of this global issue, consider their role, learn more about climate science, and take actions locally. Initially, a large percentage of students believed that global warming is occurring (69.5%) and is occurring at least in some part due to human influence (69.3%). Students had learned significantly more total climate change knowledge, post-intervention. Analyses of variance (ANOVA) found a significant main effect for gender; males improved significantly more than females on the content knowledge test. Significant gains in content knowledge could be traced to engagement in specific club activities. The vast majority (73.3%) of students held egalitarian worldviews, while students were almost equivalent on the individualism (48.8%) /communitarian (47.7%) worldview scale. Student worldviews correlated to responses on the affective items of the survey, but did not predict students' climate change content knowledge. Findings from this study suggest that significant gains in climate change content knowledge can be attained through short-term out-of-school interventions, but not climate change beliefs. For rural, low income families, knowledge talk was most common (26.6%), followed by discussion of behaviors (11.5%), and talk regarding the seriousness of the problem (10.6%). Seventy-two percent of the participants (n = 18; 9 students, 9 adults) were coded as individualistic egalitarian. Changes in climate change content knowledge from pre- to post-intervention were greatest in the students and parents who were highly engaged in the at-home family intervention, indicating that parents and students can benefit from climate change interventions in their own homes.

Story - Science - Solutions: A new middle school science curriculum that promotes climate-stewardship

NASA Astrophysics Data System (ADS)

Cordero, E.; Centeno Delgado, D. C.

2017-12-01

Over the last five years, Green Ninja has been developing educational media to help motivate student interest and engagement around climate science and solutions. The adoption of the Next Generation Science Standards (NGSS) offers a unique opportunity where schools are changing both what they teach in a science class and how they teach. Inspired by the new emphasis in NGSS on climate change, human impact and engineering design, Green Ninja developed a technology focused, integrative, and yearlong science curriculum (6th, 7th and 8th grade) focused broadly around solutions to environmental problems. The use of technology supports the development of skills valuable for students, while also offering real-time metrics to help measure both student learning and environmental impact of student actions. During the presentation, we will describe the design philosophy around our middle school curriculum and share data from a series of classes that have created environmental benefits that transcend the traditional classroom. The notion that formal education, if done correctly, can be leveraged as a viable climate mitigation strategy will be discussed.

WATER SPOTTERS: Water, energy, isotopes and experiential learning in the Colorado Front Range

NASA Astrophysics Data System (ADS)

Noone, D. C.; Berkelhammer, M. B.; Raudzens Bailey, A.; Buhr, S. M.; Smith, L. K.

2011-12-01

Providing students with tangible examples of the two-way interaction between human society and the climate system is a pressing challenge. Water is at the core of many issues in environmental change from local to global scales. In climate research, there are significant uncertainties in the role water plays in the climate system. "Water" can also act as a central theme that provides opportunities for science education at all levels. WATER SPOTTERS takes advantage of the prominent agricultural landscape of the region, which is a poignant example of how society influences the climate through irrigation, evaporation/transpiration and run-off and whose productivity is influenced by the climate system. Both natural grasslands and alpine ecosystems in the surrounding regions serve as examples of the native landscape. The centerpiece of this project is a 300m tower that is fully implemented with gas sampling lines and micrometeorological equipment to study the energy and water budgets of the region. Middle Schools that surround this site, many of which exist in visual contact with the tall tower, are provided with meteorological stations, which provide rainfall rates, temperature, humidity and radiation data. In coordination with the St Vrain Valley School District MESA (Math Engineering Science Achievement) program, students collect rain water samples that are analyzed and used as a core component of the research goals. The students use the weather stations as a way to directly explore their local climatology and provide data that is needed in research. We present an overview of the curriculum goals and associated physical infrastructure designed for middle school students in the Colorado Front Range to explore their local water cycle using water isotopes. The fixed infrastructure at the schools and tall tower are supplemented by mobile instruments such as an automated precipitation collector and snowflake photography system, which both fulfill science needs and provide opportunities for experiential learning.

High-Performance Schools: Affordable Green Design for K-12 Schools; Preprint

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

Plympton, P.; Brown, J.; Stevens, K.

2004-08-01

Schools in the United States spend $7.8 billion on energy each year-more than the cost of computers and textbooks combined, according to a 2003 report from the National Center for Education Statistics. The U.S. Department of Energy (DOE) estimates that these high utility bills could be reduced as much as 25% if schools adopt readily available high performance design principles and technologies. Accordingly, hundreds of K-12 schools across the country have made a commitment to improve the learning and teaching environment of schools while saving money and energy and protecting the environment. DOE and its public- and private-sector partners havemore » developed Energy Design Guidelines for High Performance Schools, customized for nine climate zones in U.S. states and territories. These design guidelines provide information for school decision makers and design professionals on the advantages of energy efficiency and renewable energy designs and technologies. With such features as natural day lighting, efficient electric lights, water conservation, and renewable energy, schools in all types of climates are proving that school buildings, and the students and teachers who occupy them, are indeed high performers. This paper describes high performance schools from each of the nine climate zones associated with the Energy Design Guidelines. The nine case studies focus on the high performance design strategies implemented in each school, as well as the cost savings and benefits realized by students, faculty, the community, and the environment.« less

Assessing Current State Science Teaching and Learning Standards for Ability to Achieve Climate Science Literacy

NASA Astrophysics Data System (ADS)

Busch, K. C.

2012-12-01

Even though there exists a high degree of consensus among scientists about climate change, doubt has actually increased over the last five years within the general U.S. public. In 2006, 79% of those polled agreed that there is evidence for global warming, while only 59% agreed in 2010 (Pew Research Center, 2010). The source for this doubt can be partially attributed to lack of knowledge. Formal education is one mechanism that potentially can address inadequate public understanding as school is the primary place where students - and future citizens - learn about the climate. In a joint effort, several governmental agencies, non-governmental organizations, scientists and educators have created a framework called The Essential Principles of Climate Science Literacy, detailing seven concepts that are deemed vital for individuals and communities to understand Earth's climate system (USGCRP, 2009). Can students reach climate literacy - as defined by these 7 concepts - if they are taught using a curriculum based on the current state standards? To answer this question, the K-12 state science teaching and learning standards for Texas and California - two states that heavily influence nation-wide textbook creation - were compared against the Essential Principles. The data analysis consisted of two stages, looking for: 1) direct reference to "climate" and "climate change" and 2) indirect reference to the 7 Essential Principles through axial coding. The word "climate" appears in the California K-12 science standards 4 times and in the Texas standards 7 times. The word "climate change" appears in the California and Texas standards only 3 times each. Indirect references to the 7 Essential Principles of climate science literacy were more numerous. Broadly, California covered 6 of the principles while Texas covered all 7. In looking at the 7 principles, the second one "Climate is regulated by complex interactions among component of the Earth system" was the most substantively addressed. Least covered were number 6 "Human activities are impacting the climate system" and number 7 "Climate change will have consequences for the Earth system and human lives." Most references, either direct or indirect, occurred in the high school standards for earth science, a class not required for graduation in either state. This research points to the gaps between what the 7 Essential Principles of Climate Literacy defines as essential knowledge and what students may learn in their K-12 science classes. Thus, the formal system does not seem to offer an experience which can potentially develop a more knowledgeable citizenry who will be able to make wise personal and policy decisions about climate change, falling short of the ultimate goal of achieving widespread climate literacy. Especially troubling was the sparse attention to the principles addressing the human connection to the climate - principles number 6 and 7. If climate literate citizens are to make "wise personal and policy decisions" (USGCRP, 2009), these two principles especially are vital. This research, therefore, has been valuable for identifying current shortcomings in state standards.

The Effect of a Case-Based Reasoning Instructional Model on Korean High School Students' Awareness in Climate Change Unit

ERIC Educational Resources Information Center

Jeong, Jinwoo; Kim, Hyoungbum; Chae, Dong-hyun; Kim, Eunjeong

2014-01-01

The purpose of this study is to investigate the effects of the case-based reasoning instructional model on learning about climate change unit. Results suggest that students showed interest because it allowed them to find the solution to the problem and solve the problem for themselves by analogy from other cases such as crossword puzzles in an…

"So You Can't Blame Us Then?": Gendered Discourses of Masculine Irresponsibility as Biologically Determined and Peer-Pressured in Upper-Primary School Contexts

ERIC Educational Resources Information Center

Wardman, Natasha Penelope

2017-01-01

In a global climate increasingly shaped by neoliberal agendas that privilege meritocratic individualism, it is apparent that society as a whole and educational policy-makers and practitioners in particular expect students to take more "responsibility" for their own learning and behaviour at school. In the Australian context, as…

Transgender and Gender-Creative Students in PK-12 Schools: What We Can Learn from Their Teachers

ERIC Educational Resources Information Center

Meyer, Elizabeth J.; Tilland-Stafford, Anika; Airton, Lee

2016-01-01

Context: A growing body of work reflects the ways in which gender-creative and transgender students are ill-served by current social climates in the vast majority of public schools. Few studies have explored this topic from an educator's perspective. Purpose: This study was designed to develop a conception of the barriers and supports that exist…

The Problem of Discipline/Control and Security in Our Schools. Position Paper, Number 1.

ERIC Educational Resources Information Center

National Urban League, Inc., New York, NY.

A survey in the fall of 1969 revealed that of the 51 major cities which responded to a questionnaire, only four did not employ their own security officers or use city policemen in daily school operations. It is contended that it is impossible for a favorable climate for learning to be established within this type of environment. Further, it is…

Improving the social and emotional climate of classrooms: a clustered randomized controlled trial testing the RULER Approach.

PubMed

Rivers, Susan E; Brackett, Marc A; Reyes, Maria R; Elbertson, Nicole A; Salovey, Peter

2013-02-01

The RULER Approach ("RULER") is a setting-level, social and emotional learning program that is grounded in theory and evidence. RULER is designed to modify the quality of classroom social interactions so that the climate becomes more supportive, empowering, and engaging. This is accomplished by integrating skill-building lessons and tools so that teachers and students develop their emotional literacy. In a clustered randomized control trial, we tested the hypothesis that RULER improves the social and emotional climate of classrooms. Depending upon condition assignment, 62 schools either integrated RULER into fifth- and sixth-grade English language arts (ELA) classrooms or served as comparison schools, using their standard ELA curriculum only. Multi-level modeling analyses showed that compared to classrooms in comparison schools, classrooms in RULER schools were rated as having higher degrees of warmth and connectedness between teachers and students, more autonomy and leadership among students, and teachers who focused more on students' interests and motivations. These findings suggest that RULER enhances classrooms in ways that can promote positive youth development.

Promoting Children's and Adolescents' Social and Emotional Development: District Adaptations of a Theory of Action.

PubMed

Kendziora, Kimberly; Osher, David

2016-01-01

This article contributes to the broader discussion of promotion, prevention, and intervention in child and adolescent mental health by describing implementation and early outcomes of an 8-school district demonstration project aimed at making the promotion of social and emotional learning a systemic part of school districts' practice. Eight districts are 2-3 years in to their participation in the 6-year project. The districts are large, are predominantly urban, and serve many students who are at disadvantage. The evaluation involved collection of qualitative data to measure the degree to which the districts realized the goals established in the initiative's theory of action, as well as school climate data, extant student records, and surveys of students' social and emotional competence. To date, results show that districts have followed highly individual pathways toward integrating social and emotional learning systemically, and all have made progress over time. Although school-level implementation remains at moderate levels, 2 districts in which we could examine school climate showed gains from preinitiative years. Four of 6 measured districts showed improvement in social and emotional competence for students in Grade 3, and achievement and discipline showed overall improvements across all districts. Overall findings show that implementation of the initiative's theory of action by school districts is feasible, even in times of budgetary stress and leadership turnover. This establishes the potential for school districts to serve as a lever of change in the promotion of students' social and emotional development and mental wellness.

Exposing Underrepresented Groups to Climate Change and Atmospheric Science Through Service Learning and Community-Based Participatory Research

NASA Astrophysics Data System (ADS)

Padgett, D.

2016-12-01

Tennessee State University (TSU) is among seven partner institutions in the NASA-funded project "Mission Earth: Fusing Global Learning and Observations to Benefit the Environment (GLOBE) with NASA Assets to Build Systemic Innovation in STEM Education." The primary objective at the TSU site is to expose high school students from racial and ethnic groups traditionally underrepresented in STEM to atmospheric science and physical systems associated with climate change. Currently, undergraduate students enrolled in TSU's urban and physical courses develop lessons for high school students focused upon the analysis of global warming phenomena and related extreme weather events. The GLOBE Atmosphere Protocols are emphasized in exercises focused upon the urban heat island (UHI) phenomenon and air quality measurements. Pre-service teachers at TSU, and in-service teachers at four local high schools are being certified in the Atmosphere Protocols. Precipitation, ambient air temperature, surface temperature and other data are collected at the schools through a collaborative learning effort among the high school students, TSU undergraduates, and high school teachers. Data collected and recorded manually in the field are compared to each school's automated Weatherbug station measurements. Students and teachers engage in analysis of NASA imagery as part of the GLOBE Surface Temperature Protocol. At off-campus locations, US Clean Air Act (CAA) criteria air pollutant and Toxic Release Inventory (TRI) air pollutant sampling is being conducted in community-based participatory research (CBPR) format. Students partner with non-profit environmental organizations. Data collected using low-cost air sampling devices is being compared with readings from government air monitors. The GLOBE Aerosols Protocol is used in comparative assessments with air sampling results. Project deliverables include four new GLOBE schools, the enrollment of which is nearly entirely comprised of students underrepresented in STEM. A model for service learning activities with GLOBE to increase underrepresented groups participation in STEM is a second deliverable. A third deliverable, a comprehensive citizen science guidebook for grassroots level air quality assessment, is being developed for wide distribution.

Climate Change Professional Development Approaches: Design Considerations, Teacher Enactment, and Student Learning

NASA Astrophysics Data System (ADS)

Drewes, A.; Henderson, J.; Mouza, C.

2017-12-01

Climate change is one of the most pressing challenges facing society, and climate change educational models are emerging in response. This study investigates the implementation and enactment of a climate change professional development model for science educators and its impact on student learning. Using an intrinsic case study methodology, we focused analytic attention on how one teacher made specific curricular, pedagogical, and content decisions, and the implications of those decisions for student's conceptual learning.The research presented here reports on the instructional design, pedagogical enactment, and subsequent effects on student learning of a climate change professional development (PD) model in the United States. Using anthropological theories of conceptual travel, we traced salient ideas from the PD through instructional delivery and into the evidence of student reasoning. We sought to address the following research questions: 1) How did a middle school teacher integrate climate change concepts into her science curriculum following PD participation? and 2) How did climate change instruction influence student understanding of key climate change constructs?From observation of the classroom instruction, we determined that the teacher effectively integrated new climate change information into her pre-existing schema. Additionally, through retrospective analysis of the PD, we found the design of the PD foregrounded the causes, mechanisms and likely effects of anthropogenic climate change at the expense of mitigation and adaptation strategies, and this differentially shaped how climate change was taught in the teacher's classroom. Analysis of student reasoning evidence showed that students gained an increased understanding of the enhanced greenhouse effect and the implications of human activity on this enhanced effect at statistically significant levels and with moderate effect sizes. However, students demonstrated a limited, though non-significant gain on the likely effects of climate change. Student reasoning on the tangible actions to deal with these problems also remained underdeveloped, reflecting omissions in both professional development and teacher enactment. We discuss implications and considerations for the emerging field of climate change education.

Climate Literacy: Supporting Teacher Professional Development

NASA Astrophysics Data System (ADS)

Haddad, N.; Ledley, T. S.; Dunlap, C.; Bardar, E.; Youngman, B.; Ellins, K. K.; McNeal, K. S.; Libarkin, J.

2012-12-01

Confronting the Challenges of Climate Literacy (CCCL) is an NSF-funded (DRK-12) project that includes curriculum development, teacher professional development, teacher leadership development, and research on student learning, all directed at high school teachers and students. The project's evaluation efforts inform and guide all major components of the project. The research effort addresses the question of what interventions are most effective in helping high school students grasp the complexities of the Earth system and climate processes, which occur over a range of spatial and temporal scales. The curriculum unit includes three distinct but related modules: Climate and the Cryosphere; Climate, Weather, and the Biosphere; and Climate and the Carbon Cycle. Climate-related themes that cut across all three modules include the Earth system, with the complexities of its positive and negative feedback loops; the range of temporal and spatial scales at which climate, weather, and other Earth system processes occur; and the recurring question, "How do we know what we know about Earth's past and present climate?" which addresses proxy data and scientific instrumentation. The professional development component of the project includes online science resources to support the teaching of the curriculum modules, summer workshops for high school teachers, and a support system for developing the teacher leaders who plan and implement those summer workshops. When completed, the project will provide a model high school curriculum with online support for implementing teachers and a cadre of leaders who can continue to introduce new teachers to the resource. This presentation will introduce the curriculum and the university partnerships that are key to the project's success, and describe how the project addresses the challenge of helping teachers develop their understanding of climate science and their ability to convey climate-related concepts articulated in the Next Generation Science Standards to their students. We will also describe the professional development and support system to develop teacher leaders and explain some of the challenges that accompany this approach of developing teacher leaders in the area of climate literacy.

Practical Theory in Correctional Education.

ERIC Educational Resources Information Center

Semmens, Robert A.

1989-01-01

Argues for learner motivation emphasis in teaching practice, application of school organization and classroom climate findings to prisoner education program development, and a cooperative administrative approach. Urges implementation of a social interaction learning model to achieve state educational aims for all students. (LAM)

The connection between teaching and learning: Linking teaching quality and metacognitive strategy use in primary school.

PubMed

Rieser, Svenja; Naumann, Alexander; Decristan, Jasmin; Fauth, Benjamin; Klieme, Eckhard; Büttner, Gerhard

2016-12-01

In order for teaching to be successful, students need to be actively involved in learning. However, research on teaching effectiveness often neglects students' learning activities. Although it is assumed that effective teaching promotes the use of beneficial learning activities, empirical evidence for this connection is still limited. This study aimed to investigate the connection between effective teaching and reported learning activities. We hypothesize specific relations between a three-dimensional model of teaching quality (i.e., cognitive activation, supportive climate, and classroom management) and students' reported use of metacognitive strategies. Students' intrinsic motivation is considered as a mediator and a moderator of this connection. N = 1,052 students from 53 German primary school classes and their science teachers participated. Data were collected through classroom or video observation and questionnaires over a period of approximately 2 months. Multilevel analysis was utilized to test our hypotheses. Each dimension of teaching quality positively predicted students' reported use of metacognitive strategies. For supportive climate, this connection was mediated by students' intrinsic motivation. Cognitive activation negatively predicted the slopes between students' reported metacognitive strategy use and motivation. The results support the notion that effective teaching is connected to learning activities and stress the importance of students' learning motivation. Results from the cross-level interaction could indicate that especially less motivated students' reported metacognitive strategy use might be supported by cognitively activating teaching. © 2016 The British Psychological Society.

Lens on Climate Change (LOCC) - Engaging Diverse Secondary Students in Climate Science through Videography

NASA Astrophysics Data System (ADS)

Gold, Anne; Smith, Lesley; Leckey, Erin; Oonk, David; Woods, Melanie

2016-04-01

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 engages students, ages 11to18 in producing short videos about climate change topics in Colorado, USA, specifically ones that are impacting students' lives and their local community. Participating schools are located in rural, suburban and urban Colorado many of which have diverse student populations often from socioeconomically disadvantaged backgrounds. Project staff recruits university graduate and undergraduate students to mentor the students in their research and video production. With the help of these mentors, student groups select and research climate topics, interview science experts and stakeholders, and produce short videos. The program aims to engage students in self-motivated research and learning about a climate topic. Furthermore, it serves 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 a university campus for a final screening event. For many of the students it is their first visit to a college campus. The LOCC project aims to connect secondary students, who otherwise would not have this opportunity, with college life and the scientific community. Evaluation results show that the process of video production is a powerful tool for the students to explore and learn about climate change topics. Students and teachers appreciate the unique approach to learning. The here presented approach of teaching science with videography in an active, self-directed style can easily be transferred.

Challenges of Communicating Climate Change in North Dakota: Undergraduate Internship and Collaboration with Middle School Educators

NASA Astrophysics Data System (ADS)

Mullendore, G. L.; Munski, L.; Kirilenko, A.; Remer, F.; Baker, M.

2012-12-01

In summer 2010, the University of North Dakota (UND) hosted an internship for undergraduates to learn about climate change in both the classroom and group research projects. As a final project, the undergraduates were tasked to present their findings about different aspects of climate change in webcasts that would be later used in middle school classrooms in the region. Interns indicated that participation significantly improved their own confidence in future scholarly pursuits. Also, communicating about climate change, both during the project and afterwards, helped the interns feel more confident in their own learning. Use of webcasts widened the impact of student projects (e.g. YouTube dissemination), and multiple methods of student communication should continue to be an important piece of climate change education initiatives. Other key aspects of the internship were student journaling and group building. Challenges faced included media accessibility and diverse recruiting. Best practices from the UND internship will be discussed as a model for implementation at other universities. Lesson plans that complement the student-produced webcasts and adhere to regional and national standards were created during 2011. Communication between scientists and K-12 education researchers was found to be a challenge, but improved over the course of the project. These lesson plans have been reviewed both during a teacher workshop in January 2012 and by several Master teachers. Although select middle school educators have expressed enthusiasm for testing of these modules, very little hands-on testing with students has occurred. Wide-ranging roadblocks to implementation exist, including the need for adherence to state standards and texts, inadequate access to technology, and generally negative attitudes toward climate change in the region. Feedback from regional educators will be presented, and possible solutions will be discussed. Although some challenges are specific to the Northern Great Plains region, understanding these challenges are important for agencies and universities with goals of national dissemination.

Trans- and Interdisciplinarity in K-14 Climate Change Education: Trends Emerging from Recent Reports by the National Research Council

NASA Astrophysics Data System (ADS)

Storksdieck, M.

2012-12-01

A recent report by the National Research Council placed climate change or climate science education deeply into the curriculum of K-12 science education in the US (A Framework for K-12 Science Education). The NRC Framework is currently being translated into the Next Generation Science Standards (NGSS), an effort by 26 states, representing 57% of the US school-aged population, under the leadership of the educational nonprofit Achieve. A first draft version of the NGSS was made available to public audiences in June of 2012, and a revised draft will be available for a second round of reviews in later November of 2012; the final version of the NGSS which will likely feature climate change and climate science as part of Earth Systems Science, but also embedded in other areas of the science curriculum, is expected to be released in the spring of 2013. It has already become apparent, though, that successful implementation of the new standards down into effective classroom-based instruction will require a deep analysis of current and likely future barriers and opportunities for engaging K-14 students in climate change education. A recently released report on an NRC workshop conducted in 2011 summarizes these discussions (Climate Change Education in Formal Settings, K-14: A Workshop Summary). The proceedings of the workshop highlight the need to think in trans- or interdisciplinary ways about educating children in primary, secondary and early post-secondary education. This report builds on a 2010 workshop that addressed how to best reach general audiences on the issue of climate change education, particularly if the desired outcome is seen as building adaptive capacity in children and adults alike. This workshop was summarized in a report entitled Climate Change Education: Goals, Audiences, and Strategies. Opportunities for engaging students in trans- or interdisciplinary exploration of climate science or climate change-related topics, while available to K-12 students, abound in undergraduate education and informal learning. This presentation will feature a variety of cases in which climate is being addressed this way, and discuss principles that one can extract from such diverse examples as an integrated undergraduate minor; a youth-oriented show and related activities for schools provided by an educational non-profit; Green Schools and other specialty initiatives at the K-12 level that integrate education around climate and energy challenges, or programs in nature and science centers that address climate issues from a stewardship perspective, addressing actions children can take as part of the educational activities themselves. Principles that have guided various successful efforts to implement trans-and interdisciplinary climate education include orientation towards local and community action; relevance to learners; commitment by leadership and staff; institutional and organizational freedom to experiment and cooperate; opportunities to explore underlying natural and social science phenomena through hands-on and active learning; and commitment to excellence and scientific "truth". The session will close with a reflection on the merits of infusing climate change throughout the learning trajectory of a child, adolescent or young adult.

Integrating World Views, Knowledge and Venues in Climate Science Education

NASA Astrophysics Data System (ADS)

Sparrow, E. B.; Chase, M. J.; Demientieff, S.; Brunacini, J.; Pfirman, S. L.

2015-12-01

The Reaching Arctic Communities Facing Climate Change Project integrates traditional and western knowledge and observations in climate science to facilitate dialog and learning among Alaska Native adults about climate change and its impacts on the environment and on Alaskan communities. In one of the models we have tested, the informal education took place at a 4-day camp by the Tanana River in Fairbanks, Alaska. Participants included Alaska Native elders, leaders, educators and natural resource managers, community members and university scientists. Results of pre/post camp surveys showed increased awareness of scientific and technical language used in climate science, improved ability to locate resources, tools, and strategies for learning about climate change, enhanced capacity to communicate climate change in a relevant way to their audiences and communities, confirmed the value of elders in helping them understand, respond and adapt to climate change, and that the camp setting facilitated an in-depth discussion and sharing of knowledge. The camp also enhanced the awareness about weather, climate and the environment of the camp facilitators who also noticed a shift in their own thinking and behavior. After the camp one participant who is an educator shared some of the hands-on tools developed by Polar Learning and Responding Climate Change Education Partnership project and used at the camp, with her 6th grade students, with the other teachers in her school and also at a state conference. Another shared what she learned with her family and friends as well as at a conference sponsored by her faith community where she was an invited speaker. Another camp was scheduled for this past summer but was cancelled due to some unforeseen weather/climate related events. A camp is planned for early summer in 2016; however other models of reaching the adult Native populations in a similar culturally responsive manner as the camps will also be explored and tested.

Scepticism and trust: two counterpoint essentials in science education for complex socio-scientific issues

NASA Astrophysics Data System (ADS)

Fensham, Peter J.

2014-09-01

In this response to Tom G. K. Bryce and Stephen P. Day's (Cult Stud Sci Educ. doi: 10.1007/s11422-013-9500-0, 2013) original article, I share with them their interest in the teaching of climate change in school science, but I widen it to include other contemporary complex socio-scientific issues that also need to be discussed. I use an alternative view of the relationship between science, technology and society, supported by evidence from both science and society, to suggest science-informed citizens as a more realistic outcome image of school science than the authors' one of mini-scientists. The intellectual independence of students Bryce and Day assume, and intend for school science, is countered with an active intellectual dependence. It is only in relation to emerging and uncertain scientific contexts that students should be taught about scepticism, but they also need to learn when, and why to trust science as an antidote to the expressions of doubting it. Some suggestions for pedagogies that could lead to these new learnings are made. The very recent fifth report of the IPCC answers many of their concerns about climate change.

Supporting Students' Learning and Socioscientific Reasoning About Climate Change—the Effect of Computer-Based Concept Mapping Scaffolds

NASA Astrophysics Data System (ADS)

Eggert, Sabina; Nitsch, Anne; Boone, William J.; Nückles, Matthias; Bögeholz, Susanne

2017-02-01

Climate change is one of the most challenging problems facing today's global society (e.g., IPCC 2013). While climate change is a widely covered topic in the media, and abundant information is made available through the internet, the causes and consequences of climate change in its full complexity are difficult for individuals, especially non-scientists, to grasp. Science education is a field which can play a crucial role in fostering meaningful education of students to become climate literate citizens (e.g., NOAA 2009; Schreiner et al., 41, 3-50, 2005). If students are, at some point, to participate in societal discussions about the sustainable development of our planet, their learning with respect to such issues needs to be supported. This includes the ability to think critically, to cope with complex scientific evidence, which is often subject to ongoing inquiry, and to reach informed decisions on the basis of factual information as well as values-based considerations. The study presented in this paper focused on efforts to advance students in (1) their conceptual understanding about climate change and (2) their socioscientific reasoning and decision making regarding socioscientific issues in general. Although there is evidence that "knowledge" does not guarantee pro-environmental behavior (e.g. Schreiner et al., 41, 3-50, 2005; Skamp et al., 97(2), 191-217, 2013), conceptual, interdisciplinary understanding of climate change is an important prerequisite to change individuals' attitudes towards climate change and thus to eventually foster climate literate citizens (e.g., Clark et al. 2013). In order to foster conceptual understanding and socioscientific reasoning, a computer-based learning environment with an embedded concept mapping tool was utilized to support senior high school students' learning about climate change and possible solution strategies. The evaluation of the effect of different concept mapping scaffolds focused on the quality of student-generated concept maps, as well as on students' test performance with respect to conceptual knowledge as well as socioscientific reasoning and socioscientific decision making.

Developing a yearlong Next Generation Science Standard (NGSS) learning sequence focused on climate solutions: opportunities, challenges and reflections

NASA Astrophysics Data System (ADS)

Cordero, E.; Centeno, D.

2015-12-01

Over the last four years, the Green Ninja Project (GNP) has been developing educational media (e.g., videos, games and online lessons) to help motivate student interest and engagement around climate science and solutions. Inspired by the new emphasis in NGSS on climate change, human impact and engineering design, the GNP is developing a technology focused, integrative, and yearlong science curriculum focused around solutions to climate change. Recognizing the importance of teacher training on the successful implementation of NGSS, we have also integrated teacher professional development into our curriculum. During the presentation, we will describe the design philosophy around our middle school curriculum and share data from a series of classes that are piloting the curriculum during Fall 2015. We will also share our perspectives on how data, media creation and engineering can be used to create educational experiences that model the type of 'three-dimensional learning' encouraged by NGSS.

Factors Affecting Turkish Students' Achievement in Mathematics

ERIC Educational Resources Information Center

Demir, Ibrahim; Kilic, Serpil; Depren, Ozer

2009-01-01

Following past researches, student background, learning strategies, self-related cognitions in mathematics and school climate variables were important for achievement. The purpose of this study was to identify a number of factors that represent the relationship among sets of interrelated variables using principal component factor analysis and…

Changes in Managerial Decision on Pond Management to Adapt to Climate Anomalies in the Coastal Area of Pare-Pare Gulf, District of Pinrang

NASA Astrophysics Data System (ADS)

Fattah, M. H.; Busaeri, S. R.; Kasnir, M.; Siswanto

2017-08-01

The climate anomaly was adapted through the adjustment of tiger shrimp stocking patterns and optimum use of locally endemic Phronima Suppa (PS) to suit the season. Thus, the batches period determined was adjusted to suit climate change dynamics, reducing the shrimp stocking density down to 10.000 - 15.000 per ha and applying PS so the shrimp became tolerant of any environmental stress and pathogen infection. The knowledge of adaptation to climate anomalies, a learning outcome of the field school, managed to increase the average production of tiger shrimp to 217 kg/ha with an average receipt of IDR 22.60 million/ha.

The CO2nnect activities

NASA Astrophysics Data System (ADS)

Eugenia, Marcu

2014-05-01

Climate change is one of the biggest challenges we face today. A first step is the understanding the problem, more exactly what is the challenge and the differences people can make. Pupils need a wide competencies to meet the challenges of sustainable development - including climate change. The CO2nnect activities are designed to support learning which can provide pupils the abilities, skills, attitudes and awareness as well as knowledge and understanding of the issues. The project "Together for a clean and healthy world" is part of "The Global Educational Campaign CO2nnect- CO2 on the way to school" and it was held in our school in the period between February and October 2009. It contained a variety of curricular and extra-curricular activities, adapted to students aged from 11 to 15. These activities aimed to develop in students the necessary skills to understanding man's active role in improving the quality of the environment, putting an end to its degrading process and to reducing the effects of climate changes caused by the human intervention in nature, including transport- a source of CO2 pollution. The activity which I propose can be easily adapted to a wide range of age groups and linked to the curricula of many subjects: - Investigate CO2 emissions from travel to school -Share the findings using an international database -Compare and discuss CO2 emissions -Submit questions to a climate- and transport expert -Partner with other schools -Meet with people in your community to discuss emissions from transport Intended learning outcomes for pupils who participate in the CO2nnect campaign are: Understanding of the interconnected mobility- and climate change issue climate change, its causes and consequences greenhouse-gas emissions from transport and mobility the interlinking of social, environmental, cultural and economic aspects of the local transport system how individual choices and participation can contribute to creating a more sustainable development Skills and abilities actively participate in local democratic processes interact with local decision-makers collaborate with researchers and generate reliable information create innovative proposals and suggest alternatives for a more sustainable society use ICT and the internet interactively for partnership and data analysis act and think autonomously Awareness sensitivity and awareness of the effect of transport on climate change and the sustainability issues raised by climate change awareness that each person has a role in climate change, including CO2 emissions from transport Attitudes and values develop concern about the climate change issue, its causes and impacts develop motivation to participate in decision-making for a more sustainable society realize that they have opportunities to help create a more sustainable society, both as individuals and through common actions

Secrets of the Sediments: Using ANDRILL's Scientific Adventure on Ice to Transfer Climate Change Science to K-12 Audiences

NASA Astrophysics Data System (ADS)

Huffman, L. T.; Dahlman, L.; Frisch-Gleason, R.; Harwood, D.; Pound, K.; Rack, F.; Riesselman, C.; Trummel, E.; Tuzzi, E.; Winter, D.

2008-12-01

Antarctica's harsh environment and the compelling story of living and working there, provides the backdrop for hooking the interest of young learners on science research and the nature of science. By using the adventure stories of today's researcher-explorers, teachers accompanying the ANDRILL team have taken the technical science of drilling rock cores to understand the history of climate change and the advance and retreat of the Antarctic ice sheet, and translated it for non-technical audiences from K-12 school children, to adult community groups. In order to understand the important issues surrounding global climate change, members of the public need access to accurate and relevant information, high quality educational materials, and a variety of learning opportunities in different learning environments. By taking lessons learned from early virtual polar adventure learning expeditions like Will Steger's Trans-Antarctic Expedition, coupled with educators-in-the-field programs like TEA (Teachers Experiencing Antarctica and the Arctic), ARMADA and Polar Trec, ANDRILL's Education and Outreach Program has evolved into successful and far-reaching integrated education projects including 1) the ARISE (ANDRILL Research Immersion for Science Educators) Program, 2) Climate Change Student Summits, 3) the development of Flexhibit (flexible exhibit) teaching resources, 4) virtual online learning communities, and 5) partnering young researchers with teachers and classrooms. Formal evaluations indicate lasting interest in science studies on the part of students and an increase in teachers' scientific background knowledge.

Pathways to Safety

ERIC Educational Resources Information Center

Kennedy, Mike

2006-01-01

Education administrators have many tools available to them as they strive to establish a safe climate for learning, but no one strategy or piece of equipment is a magic solution that keeps potential trouble beyond the campus boundaries. Creating and maintaining a safe and secure school environment requires a balance of many strategies: (1)…

Core Values

ERIC Educational Resources Information Center

Martin, Tim

2016-01-01

In this article, two lessons are introduced in which students examine Arctic lake sediments from Lake El'gygytgyn in Russia and discover a climate signal in a lake or pond near their own school. The lessons allow students to experience fieldwork, understand lab procedure, practice basic measurement and observation skills, and learn how to…

Language Arts Program Guide, K-12.

ERIC Educational Resources Information Center

Hawaii State Dept. of Education, Honolulu. Office of Instructional Services.

Intended for use by administrators, teachers, and district and state personnel, this guide provides a framework for Hawaii's kindergarten through grade 12 language arts program. Various sections of the guide contain (1) a statement of beliefs concerning the nature of language, language and learning, the student, and the school climate; (2) program…

Self-Regulatory Climate: A Social Resource for Student Regulation and Achievement

ERIC Educational Resources Information Center

Adams, Curt M.; Forsyth, Patrick B.; Dollarhide, Ellen; Miskell, Ryan; Ware, Jordan

2015-01-01

Background/Context: Schools have differential effects on student learning and development, but research has not generated much explanatory evidence of the social-psychological pathway to better achievement outcomes. Explanatory evidence of how normative conditions enable students to thrive is particularly relevant in the urban context where…

Multi-Structural Relationships among Organizational Culture, Job Autonomy, and CTE Teacher Turnover Intention

ERIC Educational Resources Information Center

Song, Ji Hoon; Martens, Jon; McCharen, Belinda; Ausburn, Lynna J.

2011-01-01

This study investigated structural relationships among the constructs of supportive learning culture, school innovative climate, task-related job autonomy, and teacher turnover intention in career and technical education. The study applied organizational concepts to a problem typically approached from the perspective of teacher characteristics and…

The Teacher and the Child of Divorce.

ERIC Educational Resources Information Center

Elmore, L. JoAnne

It is important for teachers to produce a comfortable learning climate for students whose parents are divorcing. Research has shown that divorce precipitates a major crisis in the lives of most children and that the stress which accompanies divorce often affects school behavior and academic performance. Children at different ages react differently…

Introducing a New Elementary GLOBE Book on Climate: Supporting Educators and Students in their Understanding of the Concepts Underlying Climate and Climate Change

NASA Astrophysics Data System (ADS)

Stanitski, D.; Hatheway, B.; Gardiner, L. S.; Taylor, J.; Chambers, L. H.

2016-12-01

Much of the focus on climate literacy in K-12 occurs in middle and high school, where teachers and students can dig into the science in some depth. It is important, however, to introduce this topic at an early age, building on a child's natural curiosity about the world around them - but without overwhelming them with frightening climate change impacts. In some U.S. school systems, a recent focus on standardized testing has crowded out science instruction in order to bring up literacy scores. To give teachers a resource to maintain some science instruction under these conditions, a series of Elementary GLOBE books have been developed. These fictional stories describe sound science and engineering practices that are essential for students to learn the process of science while expanding literacy skills, strongly encouraged in the Next Generation Science Standards (NGSS). The main concepts developed in a new Elementary GLOBE book on climate, titled "What in the World Is Happening to Our Climate?", will be introduced in this presentation. This book complements six other Earth System Science modules within the Elementary GLOBE curriculum and is freely available on the GLOBE website (www.globe.gov/elementaryglobe). The book discusses the concept that climate is changing in different ways and places around the world, and what happens to the climate in one place affects other locations across the globe. Supporting ideas clarify the difference between weather and climate, introduce climate science concepts, reveal the impacts of sea level rise, and help students understand that, while humans are contributing to climate change, they can also participate in solutions that address this challenge. Accompanying teacher's notes and companion classroom activities will be described to help elementary school teachers understand how to approach the subject of climate change with their students.

A Model for Local Experiential Learning: Workshop on Mangroves, Oceans & Climate in Kosrae

NASA Astrophysics Data System (ADS)

Maloney, A. E.; Sachs, J. P.; Barros, C.; Low, M.

2015-12-01

A curriculum for an intensive one-day workshop about mangroves, oceans, and climate has been developed for schoolteachers in the Federated States of Micronesia. The goals of the workshop are for teachers/attendees to be able to (i) explain what salinity is and describe how it varies from the ocean to the river, (ii) explain what a mangrove is and describe adaptations mangroves have developed that allow them to live in saline or brackish water, and adjust to changing sea level, and (iii) develop a grade-appropriate poster on mangroves or salinity and one interactive activity that uses the poster to engage students in learning. These objectives are accomplished by field trips to the ocean and mangrove swamp, where each participant learns how to measure salinity and identify mangrove species. The hands-on field component is followed by a poster development session where participants design, present, and share feedback on their posters that they will bring back to their classrooms. This experience allows schoolteachers to intimately explore their coastal ecosystems and gain new perspectives about their environment that they can take back to their students. The workshop was designed through a collaborative effort between Pacific Resources for Education and Learning (PREL) NSF Pacific Climate Education Partnership, University of Washington professors and graduate students and undergraduate students, Kosrae Department of Education, Kosrae Island Resource Management Authority (KIRMA), Kosrae Island Conservation and Safety Organization (KCSO), and local Kosraean schoolteachers and administrators. The workshop was offered to elementary school teachers from 4 of 5 school districts in 2013, 2014, and 2015, led by University of Washington scientists and PREL. Local education officials and PREL staff will lead future workshops.

A Second Chance: What can informal science learning institutions uniquely contribute to public inquiry about climate change? (Invited)

NASA Astrophysics Data System (ADS)

Bartels, D.

2009-12-01

The science of climate change is complicated. Even for adult audiences, scientific ideas such as non-linear modeling, probability and uncertainty, complexity and multivariate relationships, and the dynamic relationship between physical and human systems were not part of the typical curriculum for most of us in school. Moreover, many adults are invested in the myth that the aim of scientists is “truth-seeking” as opposed to finding the best interpretation that fits the best available empirical data. Science too often is presented even to adults as sets of answers and certainties. The forthcoming “Green Book” from the NSF Advisory Committee on Environmental Research and Education makes a novel recommendation that in these times adult environmental science literacy is as critical as education programs for K-12 and university students. Its reasoning is the stakes regarding the most pressing global environmental issues of our day—climate change chief among them—likely require such significant change in human behavior in the immediate term that it cannot wait for another generation of children to grow up. Practices and behaviors must change immediately. The report identifies the approximately 15,000 informal science learning institutions across the United States as the perfect adult science education delivery system to address this challenge. However, for the informal science learning community to engage this challenge most effectively, it must take care in its response given the complexity of the science, even for adults. It cannot perpetuate the idea of science as static and certain or separate itself from the social sciences. Yet the scientific community has very important stories to tell which have an immediate urgency to humankind. How do you explain the importance of uncertainty and science as a process while at the same time conveying confidence about scientific consensus where it exists? We will discuss ways of framing these important questions about adult learning and the science of climate change to assist scientists, informal science learning institutions and others increase the probability of enhanced credibility, understanding and action on the part of those of us beyond our school years.

Scaling Climate Change Communication for Behavior Change

NASA Astrophysics Data System (ADS)

Rodriguez, V. C.; Lappé, M.; Flora, J. A.; Ardoin, N. M.; Robinson, T. N.

2014-12-01

Ultimately, effective climate change communication results in a change in behavior, whether the change is individual, household or collective actions within communities. We describe two efforts to promote climate-friendly behavior via climate communication and behavior change theory. Importantly these efforts are designed to scale climate communication principles focused on behavior change rather than soley emphasizing climate knowledge or attitudes. Both cases are embedded in rigorous evaluations (randomized controlled trial and quasi-experimental) of primary and secondary outcomes as well as supplementary analyses that have implications for program refinement and program scaling. In the first case, the Girl Scouts "Girls Learning Environment and Energy" (GLEE) trial is scaling the program via a Massive Open Online Course (MOOC) for Troop Leaders to teach the effective home electricity and food and transportation energy reduction programs. The second case, the Alliance for Climate Education (ACE) Assembly Program, is advancing the already-scaled assembly program by using communication principles to further engage youth and their families and communities (school and local communities) in individual and collective actions. Scaling of each program uses online learning platforms, social media and "behavior practice" videos, mastery practice exercises, virtual feedback and virtual social engagement to advance climate-friendly behavior change. All of these communication practices aim to simulate and advance in-person train-the-trainers technologies.As part of this presentation we outline scaling principles derived from these two climate change communication and behavior change programs.

Global Environmental Leadership and Sustainability: High School Students Teaching Environmental Science to Policymakers

NASA Astrophysics Data System (ADS)

Wilson, S.; Tamsitt, V. M.

2016-02-01

A two week high school course for high-achieving 10th-12th graders was developed through the combined efforts of Scripps Institution of Oceanography (SIO) Graduate Students and UC San Diego Academic Connections. For the high school students involved, one week was spent at SIO learning basic climate science and researching climate-related topics, and one week was spent in Washington D.C. lobbying Congress for an environmental issue of their choosing. The specific learning goals of the course were for students to (1) collect, analyze and interpret scientific data, (2) synthesize scientific research for policy recommendations, (3) craft and deliver a compelling policy message, and (4) understand and experience change. In this first year, 10 students conducted research on two scientific topics; sea level rise using pier temperature data and California rainfall statistics using weather stations. Simultaneous lessons on policy messaging helped students learn how to focus scientific information for non-scientists. In combining the importance of statistics from their Science lessons with effective communication from their Policy lessons, the students developed issue papers which highlighted an environmental problem, the solution, and the reason their solution is most effective. The course culminated in two days of meetings on Capitol Hill, where they presented their solutions to their Congressional and Senate Members, conversed with policymakers, and received constructive feedback. Throughout the process, the students effectively defined arguments for an environmental topic in a program developed by SIO Graduate Students.

Coastal Climate Change Education, Mitigation, and Adaptation in the Natural and Built Environments: Progress of the Coastal Areas Climate Change Education Partnership

NASA Astrophysics Data System (ADS)

Feldman, A.; Herman, B.; Vernaza-Hernández, V.; Ryan, J. G.; Muller-Karger, F. E.; Gilbes, F.

2011-12-01

The Coastal Area Climate Change Education (CACCE) Partnership, funded by the National Science Foundation, seeks to develop new ways to educate citizens about global climate change. The core themes are sea level rise and impacts of climate change in the southeastern United States and the Caribbean Sea. CACCE focuses on helping partners, educators, students, and the general public gain a fundamental and working understanding of the interrelation among the natural environment, built environment, and social aspects in the context of climate change in coastal regions. To this end, CACCE's objectives reported here include: 1) defining the current state of awareness, perceptions, and literacy about the impacts of climate change; and 2) testing a model of transdisciplinary research and learning as a means of training a new generation of climate professionals. Objective one is met in part by CACCE survey efforts that reveal Florida and Puerto Rico secondary science teachers hold many non-scientific views about climate change and climate change science and provide inadequate instruction about climate change. Associated with objective two are five Multiple Outcome Interdisciplinary Research and Learning (MOIRL) pilot projects underway in schools in Florida and Puerto Rico. In the CACCE Partnership the stakeholders include: students (K-16 and graduate); teachers and education researchers; informal science educators; scientists and engineers; business and industry; policy makers; and community members. CACCE combines interdisciplinary research with action research and community-based participatory research in a way that is best described as "transdisciplinary". Learning occurs in all spheres of interactions among stakeholders as they engage in scientific, educational, community and business activities through their legitimate peripheral participation in research communities of practice. We will describe the process of seeking and building partnerships, and call for a dialogue with groups pursuing climate and climate change education.

How school climate relates to chronic absence: A multi-level latent profile analysis.

PubMed

Van Eck, Kathryn; Johnson, Stacy R; Bettencourt, Amie; Johnson, Sarah Lindstrom

2017-04-01

Chronic absence is a significant problem in schools. School climate may play an important role in influencing chronic absence rates among schools, yet little research has evaluated how school climate constructs relate to chronic absence. Using multilevel latent profile analysis, we evaluated how profiles of student perceptions of school climate at both the student and school level differentiated school-level rates of chronic absence. Participants included 25,776 middle and high school students from 106 schools who completed a district administered school climate survey. Students attended schools in a large urban school district where 89% of 6th through 12th grade students were African-American and 61% were eligible for the federally subsidized school meals program. Three student-level profiles of perceptions of school climate emerged that corresponded to "positive," "moderate," and "negative" climate. Two predominant patterns regarding the distribution of these profiles within schools emerged that corresponded to the two school-level profiles of "marginal climate" and "climate challenged" schools. Students reporting "moderate" and "negative" climate in their schools were more likely to attend schools with higher chronic absence rates than students reporting that their school had "positive" climate. Likewise, "climate challenged" schools had significantly higher chronic absence rates than "marginal climate" schools. These results suggest that school climate shares an important relation with chronic absence among adolescent students attending urban schools. Implications for prevention and intervention programs are discussed. Copyright © 2016 Society for the Study of School Psychology. Published by Elsevier Ltd. All rights reserved.

The Arctic Climate Modeling Program: K-12 Geoscience Professional Development for Rural Educators

NASA Astrophysics Data System (ADS)

Bertram, K. B.

2009-12-01

Helping teachers and students connect with scientists is the heart of the Arctic Climate Modeling Program (ACMP), funded from 2005-09 by the National Science Foundation’s Innovative Technology Experience for Students and Teachers. ACMP offered progressive yearlong science, technology and math (STM) professional development that prepared teachers to train youth in workforce technologies used in Arctic research. ACMP was created for the Bering Strait School District, a geographically isolated area with low standardized test scores, high dropout rates, and poverty. Scientists from around the globe have converged in this region and other areas of the Arctic to observe and measure changes in climate that are significant, accelerating, and unlike any in recorded history. Climate literacy (the ability to understand Earth system science and to make scientifically informed decisions about climate changes) has become essential for this population. Program resources were designed in collaboration with scientists to mimic the processes used to study Arctic climate. Because the Bering Strait School District serves a 98 percent Alaska Native student population, ACMP focused on best practices shown to increase the success of minority students. Significant research indicates that Alaska Native students succeed academically at higher rates when instruction addresses topics of local interest, links education to the students’ physical and cultural environment, uses local knowledge and culture in the curriculum, and incorporates hands-on, inquiry-based lessons in the classroom. A seven-partner consortium of research institutes and Alaska Native corporations created ACMP to help teachers understand their role in nurturing STM talent and motivating students to explore geoscience careers. Research underscores the importance of increasing school emphasis in content areas, such as climate, that facilitate global awareness and civic responsibility, and that foster critical thinking and other 21st century learning skills. Climate studies offer insight into a broad cross-section of STM careers, and provide a natural forum for helping students develop problem-solving skills inherent in STM research. Climate research involves sophisticated technology, a complex set of 21st century skills, and the ability to collaborate with an international community. Professional development that trains teachers in these skills is essential considering that recent research shows 90 percent of U.S. secondary students are taught Earth and physical science by a teacher lacking STM certification. ACMP summative evaluation posed three questions: 1) Did ACMP training meet teachers’ needs? 2) Did ACMP involvement result in more effective teachers and teaching? 3) Did participation in ACMP result in higher Bering Strait School District student achievement? Teachers and students were evaluated using a mixed method design incorporating descriptive components with a before/after design to measure what teachers and students learned. Community members, 165 teachers, and 1,738 individual students participated in the program, which was successful in its goals overall.

EarthLabs Climate Detectives: Using the Science, Data, and Technology of IODP Expedition 341 to Investigate the Earth's Past Climate

NASA Astrophysics Data System (ADS)

Mote, A. S.; Lockwood, J.; Ellins, K. K.; Haddad, N.; Ledley, T. S.; Lynds, S. E.; McNeal, K.; Libarkin, J. C.

2014-12-01

EarthLabs, an exemplary series of lab-based climate science learning modules, is a model for high school Earth Science lab courses. Each module includes a variety of learning activities that allow students to explore the Earth's complex and dynamic climate history. The most recent module, Climate Detectives, uses data from IODP Expedition 341, which traveled to the Gulf of Alaska during the summer of 2013 to study past climate, sedimentation, and tectonics along the continental margin. At the onset of Climate Detectives, students are presented with a challenge engaging them to investigate how the Earth's climate has changed since the Miocene in southern Alaska. To complete this challenge, students join Exp. 341 to collect and examine sediments collected from beneath the seafloor. The two-week module consists of six labs that provide students with the content and skills needed to solve this climate mystery. Students discover how an international team collaborates to examine a scientific problem with the IODP, compete in an engineering design challenge to learn about scientific ocean drilling, and learn about how different types of proxy data are used to detect changes in Earth's climate. The NGSS Science and Engineering Practices are woven into the culminating activity, giving students the opportunity to think and act like scientists as they investigate the following questions: 1) How have environmental conditions in in the Gulf of Alaska changed during the time when the sediments in core U1417 were deposited? (2) What does the occurrence of different types of diatoms and their abundance reveal about the timing of the cycles of glacial advance and retreat? (3) What timeline is represented by the section of core? (4) How do results from the Gulf of Alaska compare with the global record of glaciations during this period based on oxygen isotopes proxies? Developed by educators in collaboration with Expedition 341 scientists, Climate Detectives is a strong example of how learners can engage in authentic research experiences using real data in the secondary science classroom. In this session you will receive a brief overview of the EarthLabs project, learn more about IODP Expedition 341, and see some of the resources that the module makes available to students to help them analyze the data.

Climate Change Education: Student Media Production to Educate and Engage

NASA Astrophysics Data System (ADS)

Rooney-Varga, J. N.; Brisk, A. A.; Ledley, T. S.; Shuldman, M.

2011-12-01

Climate change education offers many challenges, including the complexity of the natural and human systems involved, a need for a multi-disciplinary perspective, and the psychological barriers to learning that result from a problem that frequently elicits a sense of being overwhelmed and powerless. The implications of climate change impacts and/or solutions can be especially overwhelming for today's students, who are likely to be confronted with many projected changes within their lifetimes. We are developing approaches to incorporate video production by students at both the high school and university levels in order to overcome many of the challenges unique to climate change education. Through media production, students are asked to convey complex topics using clear, simple language and metaphor, so their content knowledge must be deep enough to educate others. Video production is a team effort (director, camera person, editor, etc.) and inherently creates an opportunity for learning in a social context, which has been shown to lead to better learning outcomes in climate change education. Video production also promotes the basic tenets of engagement theory, in which a small group of students is in constant contact with the content and, ideally, creates a product that can be disseminated broadly. Lastly, putting students behind the camera can give them a voice and a sense of empowerment, fostering active participation in the learning process. While video is a medium that is readily disseminated to a broad audience, our focus is on the process (i.e., learning outcomes of students directly involved in media production), not the product. However, we have found that providing students with a means to add their voices to the broader public's discussion of climate change has a positive impact on student engagement with climate change science and on public awareness this problem beyond the classroom. While student-produced media pieces are not intended to provide in-depth scientific information to the broader public, we have found that they can be successful in conveying some of the key, basic concepts needed to understand anthropogenic climate change. Some of these concepts include the causal relationships between fossil fuel-based energy systems, atmospheric carbon dioxide concentrations, and climate change; the distinction between natural and anthropogenic processes in the carbon cycle; impacts of climate change on ecosystem services; and transitioning to renewable energy systems that do not emit carbon dioxide is necessary to avert 'dangerous' climate change.

Family and School Influences on Youths' Behavioral and Academic Outcomes: Cross-Level Interactions between Parental Monitoring and Character Development Curriculum.

PubMed

Top, Namik; Liew, Jeffrey; Luo, Wen

2017-01-01

The authors examined the joint (interactive) roles of the Second Step curriculum (a validated social-emotional learning and bullying prevention program; Committee for Children, Seattle, WA) and parenting practices on students' behavioral and academic outcomes in Grades 5-8. Participants were 763 parents and their children from 22 schools (8 control and 14 treatment). A 2-level random coefficient model was conducted to assess the effect of parental monitoring on school outcomes, as well as the interaction between character development curriculum and parental monitoring. Results indicated that parental monitoring was a significant predictor of school behaviors and school grades. Furthermore, the Second Step curriculum moderated the relationship between parental monitoring and problem behaviors, prosocial behaviors, and grades at school. Specifically, in schools without the Second Step curriculum parental monitoring predicted higher school grades but had no impact on students' school behaviors. By contrast, in schools with the Second Step curriculum, parental monitoring predicted fewer problem behaviors as well as more prosocial behaviors. The study results highlight the joint influences of the family and the school in children's behavioral and academic trajectories. Results have implications for education and intervention, including improving the school climate, student behaviors, and learning or achievement.

Development and initial validation of the Classroom Motivational Climate Questionnaire (CMCQ).

PubMed

Alonso Tapia, Jesús; Fernández Heredia, Blanca

2008-11-01

Research on classroom goal-structures (CGS) has shown the usefulness of assessing the classroom motivational climate to evaluate educational interventions and to promote changes in teachers' activity. So, the Classroom Motivational Climate Questionnaire for Secondary and High-School students was developed. To validate it, confirmatory factor analysis and correlation and regression analyses were performed. Results showed that the CMCQ is a highly reliable instrument that covers many of the types of teaching patterns that favour motivation to learn, correlates as expected with other measures of CGS, predicts satisfaction with teacher's work well, and allows detecting teachers who should revise their teaching.

Increasing the Chances of Implementing NGSS by Bolstering High School Teacher Knowledge and Views about Climate Change, a NICE NASA Example

NASA Astrophysics Data System (ADS)

Bleicher, R. E.

2013-12-01

Purpose of Presentation This paper will highlight how the results of this initial study foreshadow possibilities of NGSS (NGSS, 2013) playing out in high school classrooms in the near future. Research findings from a three-year NASA-funded project, Promoting Educational Leadership in Climate Science (PEL) will be presented. Objectives and Research Questions PEL aims to increase climate science literacy in high school teachers and students through scientific argumentation using authentic NASA data. This initial study focuses on the following questions: 1. Are teachers increasing their climate science knowledge? 2. Are there changes in teachers' views about climate change? 3. What resources and are provided to assist teachers to develop their students' scientific argumentation skills? Theoretical Framework Because of the changing nature of climate science knowledge and its relevance to societal issues, teachers must be able to understand the basic concepts and remain up-to-date on scientific issues. The need for a more thorough understanding of the concepts of climate change are highlighted by recent studies on the public perceptions and attitudes on the subject (Leiserowitz et al., 2013). Teachers need to understand the difference between skepticism as a characteristic of the nature of science and denial of climate change (Sommervillle & Hasol, 2011). Teachers need to understand the natural and human-induced factors affecting climate, and the potential consequences, and ways to mitigate and adapt to climate change. Generally, when teachers learn about a subject, they demonstrate more self-efficacy to teach about it (Bleicher & Lindgren, 2005). Analytic Strategy Data were analyzed using paired-samples t-tests, independent t -tests, and ANOVA. Latent class analysis was employed to analyze the Six America's Survey data. Correlational studies were conducted to examine possible relationships among variables. Findings in Brief Teachers' content knowledge increased significantly and teachers were more concerned about climate change after participation in PEL. Teachers with higher self-efficacy demonstrated higher climate change science knowledge. Teachers indicated that they felt more confident and were motivated to implement classroom lessons with their students that employed resources rich in NASA climate data and focused on scientific argumentation. References Bleicher, R.E., & Lindgren, J. (2005). Success in learning science and preservice science teaching self-efficacy. Journal of Science Teacher Education. 16, 205-225. Leiserowitz, A., Maibach, E., Roser-Renouf, C., Feinberg, G., & Howe, P.(2013) Climate change in the American mind: Americans' global warming beliefs and attitudes in April, 2013 Yale University and George Mason University. New Haven, CT: Yale Project on Climate Change Communication. Retrieved 7/26/13 from: http://climatechangecommunication.org/sites/default/files/reports/Climate-Beliefs-April-2013.pdf Next Generation Science Standards (NGSS). (2013). Available at http://www.nextgenscience.org/print/121. Somerville, R. C. J. & Hassol, S. J. (2011). Communicating the science of climate change. Physics Today, 64(10), 48-53.

Building Blocks for the New Principal

ERIC Educational Resources Information Center

Beckerman, Leon

2005-01-01

After all of the theories, strategies, discussions, and classes are completed, new principals often still feel isolated and think they have to reinvent the wheel to learn the basic lessons of leadership--how to improve school climate, how to provide leadership for change, how to communicate effectively, and how to manage time. However, they do not…

Crouching Target, Hidden Child

ERIC Educational Resources Information Center

Rogers, Stephen H.; Gunter, Helen M.

2012-01-01

Drawing on interviews with 33 young people between the ages of 14 to 17 attending three English schools we examine their experiences of a personalised education system. The policy climate in England has for some time been one of intense and persistent reforms. The Labour Party took office in 1997 and advanced "personalised learning" as a…

Students' Perceptions of the Educational Environment in a New Dental School in Northern Nigeria

ERIC Educational Resources Information Center

Idon, Paul Ikhodaro; Suleiman, Ibrahim Kayode; Olasoji, Hector Oladapo

2015-01-01

The educational climate surrounding students is considered as one of the factors determining academic success. Students and teachers have become aware of the "educational environment" of their institution. Health science courses in Nigerian universities employ a combination of traditional classroom and clinical learning methods. There is…

Classroom Research and Child and Adolescent Development in South America

ERIC Educational Resources Information Center

Preiss, David Daniel; Calcagni, Elisa; Grau, Valeska

2015-01-01

The article reviews recent classroom research developed in South America related to child and adolescent development. We review work about three themes: ethnicity, school climate and violence, and the learning process. The few studies found on ethnicity and classroom experiences told a story of invisibility, if not exclusion and discrimination.…

Teaching Team Invasion Games and Motivational Climate

ERIC Educational Resources Information Center

Gray, Shirley; Sproule, John; Morgan, Kevin

2009-01-01

Team invasion games (TIG) make up a large part of the PE curriculum in Scottish schools. It is important, therefore, to understand the environmental conditions that contribute to pupils' motivation to learn to play TIG. Consequently, this study aimed to identify the teaching behaviours exhibited when teaching TIG using a game-based approach and a…

A Restorative Climate for Learning

ERIC Educational Resources Information Center

Smith, Dominique; Frey, Nancy; Fisher, Douglas

2018-01-01

Educators often encourage students to take risks and work hard to achieve well in school--an approach called "academic press." An assumption behind this approach is that students trust educators enough to take risks and embrace academic challenge; but when a safe, trustworthy environment isn't in place, students won't take risks and may…

Youth Outcomes Following Implementation of Universal SW-PBIS Strategies in a Texas Secure Juvenile Facility

ERIC Educational Resources Information Center

Johnson, Leah E.; Wang, Eugene W.; Gilinsky, Nicole; He, Zhaomin; Carpenter, Clint; Nelson, C. Michael; Scheuermann, Brenda K.

2013-01-01

School-wide positive behavior interventions and supports (SW-PBIS) is a framework for creating safe and effective learning environments and cultivating a positive educational climate. Researchers show that SW-PBIS can improve behavioral outcomes, while demonstrations of a causal relationship between improvements in students' academic achievement…

Classroom Climate, Rigorous Instruction and Curriculum, and Students' Interactions in Urban Middle Schools

ERIC Educational Resources Information Center

Matsumura, Lindsay Clare; Slater, Sharon Cadman; Crosson, Amy

2008-01-01

In this study we investigated the relation of rigorous instructional practices and teachers' efforts to create a respectful, collaborative learning environment to students' positive behavior toward one another and to the rate and quality of students' participation in classroom discussions. Full class period (i.e., 50-minute) observations of…

Leadership Education Priorities in a Democratic Society

ERIC Educational Resources Information Center

Page, William Tyler

2010-01-01

Is there still an effort to include democratic ideals in public education? Some claim that it is no longer a priority, the result of a lack of common definition or perceived benefits. In today's policy driven climate, school leaders must transition to new and more effective approaches to enhancing learning and teaching. Aspiring principals/leaders…

Teaching About Climate Change in Medical Education: An Opportunity

PubMed Central

Maxwell, Janie; Blashki, Grant

2016-01-01

Climate change threatens many of the gains in development and health over the last century. However, it could also be a catalyst for a necessary societal transformation to a sustainable and healthy future. Doctors have a crucial role in climate change mitigation and health system adaptation to prepare for emergent health threats and a carbon-constrained future. This paper argues that climate change should be integrated into medical education for three reasons: first, to prepare students for clinical practice in a climate-changing world; secondly, to promote public health and eco-health literacy; and finally, to deepen existing learning and strengthen graduate attributes. This paper builds on existing literature and the authors’ experience to outline potential learning objectives, teaching methods and assessment tasks. In the wake of recent progress at the United Nations climate change conference, COP-21, it is hoped that this paper will assist universities to integrate teaching about climate change into medical education. Significance for public health There is a strong case for teaching about climate change in medical education. Anthropogenic climate change is accepted by scientists, governments and health authorities internationally. Given the dire implications for human health, climate change is of fundamental relevance to future doctors. Integrating climate change into medical education offers an opportunity for future doctors to develop skills and insights essential for clinical practice and a public health role in a climate-changing world. This echoes a broader call for improved public health literacy among medical graduates. This paper provides medical schools with a rationale and an outline for teaching on climate change. PMID:27190980

Teaching About Climate Change in Medical Education: An Opportunity.

PubMed

Maxwell, Janie; Blashki, Grant

2016-04-26

Climate change threatens many of the gains in development and health over the last century. However, it could also be a catalyst for a necessary societal transformation to a sustainable and healthy future. Doctors have a crucial role in climate change mitigation and health system adaptation to prepare for emergent health threats and a carbon-constrained future. This paper argues that climate change should be integrated into medical education for three reasons: first, to prepare students for clinical practice in a climate-changing world; secondly, to promote public health and eco-health literacy; and finally, to deepen existing learning and strengthen graduate attributes. This paper builds on existing literature and the authors' experience to outline potential learning objectives, teaching methods and assessment tasks. In the wake of recent progress at the United Nations climate change conference, COP-21, it is hoped that this paper will assist universities to integrate teaching about climate change into medical education. Significance for public healthThere is a strong case for teaching about climate change in medical education. Anthropogenic climate change is accepted by scientists, governments and health authorities internationally. Given the dire implications for human health, climate change is of fundamental relevance to future doctors. Integrating climate change into medical education offers an opportunity for future doctors to develop skills and insights essential for clinical practice and a public health role in a climate-changing world. This echoes a broader call for improved public health literacy among medical graduates. This paper provides medical schools with a rationale and an outline for teaching on climate change.

Climate Literacy Through Learning-by-Doing: Engaging Communities in the Production of Accessible Research-Based Information

NASA Astrophysics Data System (ADS)

Bourqui, M.; Charriere, M. K. M.; Bolduc, C.

2016-12-01

This talk presents a case of a learning-by-doing approach used by the Climanosco organisation to produce research-based information written in a language accessible to a large public. In this model, engagement (the "doing") of members of the general public, alongside climate scientists, is fostered at various levels of this production of knowledge. In particular, this engagement plays a key role in our extended peer-review process as non-scientific referees are requested to review the accessibility of manuscripts for a large public. Members of the general public also participate to the scientific inquiry by inviting scientists to write on a particular topic or by co-authoring articles. Importantly, their participation, side-by-side with climate scientists, allows them to naturally raise their climate literacy (the "learning"). This model was tested in the context of a scientific challenge organised for the launch of Climanosco where climate scientists were invited to re-frame their research for the general public. This competition started in the fall 2015 and is due to end in September 2016. It led to 11 published articles and engaged the participation of 24 members of the general public. Six non-scientists participated to the jury alongside six climate scientists and evaluated the 11 articles. Their perceived increase in climate knowledge, as evaluated though a survey, will be presented in this talk. One important challenge now is to evaluate the potential of this model to support the teaching of climate sciences at schools. For that purpose, we are starting a dialog with various teachers in several countries. Progresses on this side will also be discussed in this talk.

A Framework for Addressing Skeptics' Claims Using Evidence-Based Argumentation: Lessons Learned from Educational Research

NASA Astrophysics Data System (ADS)

Lambert, J. L.; Bleicher, R. E.; Edwards, A.; Henderson, A.

2012-12-01

In science education, climate change is an issue that is especially useful for teaching concepts spanning several fields of science, as well the nature and practices of science. In response, we are developing a NASA-funded curriculum, titled Climate Science Investigations (CSI): South Florida, that teaches high school and first-year undergraduate level students how to analyze and use scientific data answer questions about climate change. To create an effective curriculum, we integrated lessons learned from our educational research conducted within our elementary science methods courses (Lambert, Lindgren, & Bleicher, 2012). For the past few years, we have been integrating climate science in our courses as a way to teach standards across several science disciplines and assessing our preservice teachers' gains in knowledge over the semesters. More recently, given the media attention and reports on the public's shift in opinion toward being more skeptical (Kellstedt, Zahran, & Vedlitz, 2008; Washington & Cook, 2011), we have assessed our students' perceptions about climate change and implemented strategies to help students use evidence-based scientific argumentation to address common claims of climate skeptics. In our elementary science methods courses, we framed climate change as a crosscutting theme, as well as a core idea, in the Next Generation Science Standards. We proposed that the issue and science of climate change would help preservice teachers not only become more interested in the topic, but also be more prepared to teach core science concepts spanning several disciplines (physical, life, and earth sciences). We also thought that highlighting the "practice of scientific inquiry" by teaching students to develop evidence-based arguments would help the preservice teachers become more analytical and able to differentiate scientific evidence from opinions, which could ultimately influence their perceptions on climate change. Lessons learned from our preservice teachers' conceptions and perceptions about climate change, as well as the difficulties in engaging in evidence-based argumentation, have informed and enhanced the framework for development of the CSI: South Florida curriculum. The modules are sequenced according to the proposed learning progression. First, students are introduced to the nature of science and Earth's energy balance. Students then investigate the temporal and spatial temperature data to answer the question of whether Earth is warming. Students also compare natural and anthropogenic causes of climate change, investigate the various observed and projected consequences of climate change in the fourth module, and examine ways to mitigate the effects of and adapt to climate change. Finally, students learn how to refute skeptics' claims by providing counter evidence and reasoning of why the skeptics' claim is not the appropriate explanation. This paper describes our conceptual framework for teaching students how to address the skeptics' claims using the content learned in the CSI: South Florida curriculum and evidence-based argumentation.

Handbook for Conducting School Climate Improvement Projects.

ERIC Educational Resources Information Center

Howard, Eugene; And Others

This book discusses practical ways to improve a school's climate by increasing both productivity and satisfaction concurrently. Chapter 1, "Defining School Climate," identifies the overarching goals of school climate improvement, the basic human needs that school climate must address, the factors that make up a school's climate and…

Using Climate Change for Teaching Experimental Sciences in Teacher Education through Research Projects on Recycling at the University of Lleida (Western Catalonia)

NASA Astrophysics Data System (ADS)

Sebastia, M. T.; Verdú, N.

2016-12-01

Although climate change is one of the most pressing challenges faced by humankind, climate change illiteracy is frequent among primary school teacher college students reaching the second school year at the University of Lleida (UdL). Climate change was chosen to structure the course on Experimental Sciences of the bilingual group because this topic involves all sciences, and because of the importance of the subject for future educators. In the bilingual group of the Education Faculty, Experimental Sciences is taught in English, and there are usually 1-2 international students in addition to around 20 local students. To increase the awareness about climate change and make this topic closer to the students' daily experience, a research project on recycling at the University of Lleida was assigned per groups of 4 students. The assignment was semi-structured, the students received a reduced set of instructions and large freedom to focus their particular projects. Additional instructions were provided along the way. We present results from the comparisons among faculties at UdL, and among the different users: students, professors and researchers, and administration staff. We also discuss the impact that this project had in the learning ability of the students and their awareness about climate change.

Violence Prevention and School Climate Reform. School Climate Brief, Number 5

ERIC Educational Resources Information Center

Nader, Kathleen

2012-01-01

Research has demonstrated that a positive school climate is an essential part of violence prevention. Many factors influence the association between school climate and behavioral outcomes. Positive school climate alone cannot prevent all variables that may contribute to the expression of aggression. Nevertheless, positive school climates influence…

Improving The Perfect Storm: Overcoming Barriers To Climate Literacy

NASA Astrophysics Data System (ADS)

Tillinger, D.

2015-12-01

Students and scientists are trained to speak different languages. Climate science, and the geosciences more broadly, are strictly classroom topics, not subjects appropriate for casual conversation, social media, or creative projects. When students are aware of climate change through the mainstream media, it is nearly always in a political or technological context rather than a scientific one. However, given the opportunity, students are perfectly capable of not only understanding the science behind climate change, but communicating it to their peers. At the American Museum of Natural History, a group of underprivileged high school students visited Nature's Fury: The Science of Natural Disasters to learn about volcanoes, earthquakes, and climate change impacts. They were then able to write pitches and develop trailers for scientifically accurate, but still compelling, disaster movies. Arts in Parts, a creative outreach group formed as a response to Hurricane Sandy, facilitated a workshop in which younger children made mobiles from beach debris they collected while learning about the the threat of sea level rise locally and globally. Participants in an undergraduate natural disasters class wrote guides to understanding climate change that remained factual while showing great creativity and reflecting the personality of each student. Art, humor, and popular culture are the languages that society chooses to use; scientific literacy might benefit from their inclusion.

Immigrant Students’ Emotional and Cognitive Engagement at School: A Multilevel Analysis of Students in 41 countries

PubMed Central

Chiu, Ming Ming; Pong, Suet-ling; Mori, Izumi; Chow, Bonnie Wing-Yin

2014-01-01

Central to student learning and academic success, the school engagement of immigrant children also reflects their adaptation to a primary institution in their new country. Analysis of questionnaire responses of 276,165 fifteen-year-olds (50 % female) and their 10,789 school principals in 41 countries showed that school engagement has distinct, weakly-linked cognitive and emotional components. Native students had weaker attitudes toward school (cognitive engagement) but greater sense of belonging at school (emotional engagement) than immigrant students or students who spoke a foreign language at home. Students with better teacher–student relationships, teacher support or a classroom disciplinary climate often had a greater sense of belonging at school and had better attitudes toward school than other students. While immigrant students often have solid attitudes toward school, teachers can help them feel a greater sense of belonging at school. PMID:22484548

Global Climate Change, Food Security, and Local Sustainability: Increasing Climate Literacy in Urban Students

NASA Astrophysics Data System (ADS)

Boger, R. A.; Low, R.; Gorokhovich, Y.

2011-12-01

Three higher education institutions, University of Nebraska-Lincoln (UNL), Brooklyn College, and Lehman College, are working together to share expertise and resources to expand climate change topics offered to undergraduate and graduate students in New York City (NYC). This collaboration combines existing UNL educational learning resources and infrastructure in virtual coursework. It will supply global climate change education and locally-based research experiences to the highly diverse undergraduate students of Brooklyn and Lehman Colleges and to middle and high school teachers in NYC. Through the university partnership, UNL materials are being adapted and augmented to include authentic research experiences for undergraduates and teachers using NASA satellite data, geographic information system (GIS) tools, and/or locally collected microclimate data from urban gardens. Learners download NASA data, apply an Earth system approach, and employ GIS in the analysis of food production landscapes in a dynamically changing climate system. The resulting course will be offered via Blackboard courseware, supported by Web 2.0 technologies designed specifically to support dialogue, data, and web publication sharing between partners, teachers and middle school, high school and undergraduate student researchers. NYC is in the center of the urban farming movement. By exploring water and food topics of direct relevance to students' lives and community, we anticipate that students will be motivated and more empowered to make connections between climate change and potential impacts on the health and happiness of people in their community, in the United States and around the world. Final course will be piloted in 2012.

Wet Mars, Dry Mars

NASA Astrophysics Data System (ADS)

Fillingim, M. O.; Brain, D. A.; Peticolas, L. M.; Yan, D.; Fricke, K. W.; Thrall, L.

2012-12-01

The magnetic fields of the large terrestrial planets, Venus, Earth, and Mars, are all vastly different from each other. These differences can tell us a lot about the interior structure, interior history, and even give us clues to the atmospheric history of these planets. This poster highlights the third in a series of presentations that target school-age audiences with the overall goal of helping the audience visualize planetary magnetic field and understand how they can impact the climatic evolution of a planet. Our first presentation, "Goldilocks and the Three Planets," targeted to elementary school age audiences, focuses on the differences in the atmospheres of Venus, Earth, and Mars and the causes of the differences. The second presentation, "Lost on Mars (and Venus)," geared toward a middle school age audience, highlights the differences in the magnetic fields of these planets and what we can learn from these differences. Finally, in the third presentation, "Wet Mars, Dry Mars," targeted to high school age audiences and the focus of this poster, the emphasis is on the long term climatic affects of the presence or absence of a magnetic field using the contrasts between Earth and Mars. These presentations are given using visually engaging spherical displays in conjunction with hands-on activities and scientifically accurate 3D models of planetary magnetic fields. We will summarize the content of our presentations, discuss our lessons learned from evaluations, and show (pictures of) our hands-on activities and 3D models.

EarthLabs Meet Sister Corita Kent

NASA Astrophysics Data System (ADS)

Quartini, E.; Ellins, K. K.; Cavitte, M. G.; Thirumalai, K.; Ledley, T. S.; Haddad, N.; Lynds, S. E.

2013-12-01

The EarthLabs project provides a framework to enhance high school students' climate literacy and awareness of climate change. The project provides climate science curriculum and teacher professional development, followed by research on students' learning as teachers implement EarthLabs climate modules in the classroom. The professional development targets high school teachers whose professional growth is structured around exposure to current climate science research, data observation collection and analysis. During summer workshops in Texas and Mississippi, teachers work through the laboratories, experiments, and hand-on activities developed for their students. In summer 2013, three graduate students from the University of Texas at Austin Institute for Geophysics with expertise in climate science participated in two weeklong workshops. The graduate students partnered with exemplary teacher leaders to provide scientific content and lead the EarthLabs learning activities. As an experiment, we integrated a visit to the Blanton Museum and an associated activity in order to motivate participants to think creatively, as well as analytically, about science. This exercise was inspired by the work and educational philosophy of Sister Corita Kent. During the visit to the Blanton Museum, we steered participants towards specific works of art pre-selected to emphasize aspects of the climate of Texas and to draw participants' attention to ways in which artists convey different concepts. For example, artists use of color, lines, and symbols conjure emotional responses to imagery in the viewer. The second part of the exercise asked participants to choose a climate message and to convey this through a collage. We encouraged participants to combine their experience at the museum with examples of Sister Corita Kent's artwork. We gave them simple guidelines for the project based on techniques and teaching of Sister Corita Kent. Evaluation results reveal that participants enjoyed the activity and saw its value for enhancing their own appreciation of climate science. However, participants expressed skepticism about using the exercise with their own students. Teachers' perception was that students would not make the same connections that they did. From our perspective and participants' enthusiasm we encourage collaboration between art and science teachers in joint activities that emphasize the link between art and science.

Supporting Climate Literacy in the K12 Classroom by Identifying Educators' Perceived Barriers to and Gaps in Resources for Teaching Climate Change

NASA Astrophysics Data System (ADS)

Tayne, K.

2015-12-01

As K12 teachers seek ways to provide meaningful learning opportunities for students to understand climate change, they often face barriers to teaching about climate and/or lack relevant resources on the topic. In an effort to better understand how to support K12 teachers in this role, a survey about "teaching climate change" was created and distributed. The results of the 2015 survey are presented, based on more than 200 teacher responses. Respondents included National Science Teachers Association (NSTA) members, 2015 STEM Teacher and Researcher (STAR) Fellows and science teachers from several U.S. school districts. The survey identifies teachers' perceived barriers to teaching climate change, for example difficulty integrating climate change concepts into specific core courses (i.e., biology), as well as desired classroom resources, such as climate change project-based learning (PBL) units that connect to the Next Generation Science Standards (NGSS). Survey results also indicate possible pathways for federal agencies, non-profits, universities and other organizations to have a more significant impact on climate literacy in the classroom. In response to the survey results, a comprehensive guide is being created to teach climate change in K12 classrooms, addressing barriers and providing resources for teachers. For example, in the survey, some teachers indicated that they lacked confidence in their content knowledge and understanding of climate change, so this guide provides web-based resources to help further an educator's understanding of climate change, as well as opportunities for relevant online and in-person professional development. In this quest for desired resources to teach climate change, gaps in accessible and available online resources are being identified. Information about these "gaps" may help organizations that strive to support climate literacy in the classroom better serve teachers.

Reading the water table: The interaction between literacy practices and groundwater management training in preparing farmers for climate change in South India

NASA Astrophysics Data System (ADS)

Chavva, Konda Reddy; Smith, Cristine A.

2012-06-01

This article focuses on farmers' use of literacy for individual decision-making on crop-water management and crop choices and investigates how farmer participants perceive the usefulness of Farmer Water School (FWS) training. It draws upon a study conducted with farmers of Kurnool district of Andhra Pradesh, India. This study has demonstrated that literacy skills, while valued, are not a prerequisite for all farmers to improve their groundwater and crop management, as long as training includes (1) the presence of at least some literate farmers, (2) activities that involve learning by doing, and (3) learning in small mixed groups of literate and non-literate participants. The study outcomes are of increasing relevance in the context of climate change and variability, as small and marginal farmers constitute over 87 per cent of Indian farmers. Their inability to cope with consequences of climate change could adversely affect the food security in the country.

Climate Change in the School Yard: Monitoring the Health of Acer Saccharum with A Maple Report Card

NASA Astrophysics Data System (ADS)

Carlson, M.; Diller, A.; Rock, B. N.

2012-12-01

K-12 Teachers and students engage in authentic science and a research partnership with scientists in Maple Watch, a University of New Hampshire outreach program. Maple Watch is a hands-on, inquiry-based program in which students learn about climate change and air quality as well as many other environmental stress factors which may affect the health of sugar maple. The iconic New England tree is slated to lose 52% of its range in this century. Maple Watch builds on the 20-year record of Forest Watch, a K-12 program in which students and teachers have contributed annual research specimens and data to a UNH study of tropospheric ozone and its impact on white pine (Pinus strobus). Maple Watch students monitor sugar maples (Acer saccharum) year-round for signals of strain and disease. Students report the first run in sap season, bud burst and leaf development, and leaf senescence and fall. Across New England the timing of these phenologic events is changing with climate warming. Students assess maple health with simple measures of leaf development in May, leaf senescence in early fall and bud quality in late fall. Simple student arithmetic rankings of leaf and bud health correlate with chlorophyll content and spectral reflectance measures that students can analyze and compare with researchers at UNH. Grading their trees for each test on a one-two-three scale, students develop a Maple Report Card for each type of measurement, which presents an annual portrait of tree health. Year-by-year, schools across the sugar maple's 31 million acre range could monitor changes in tree health. The change over time in maple health can be graphed in parallel with the Goddard Space Institute's Common Sense Climate Index. Four teachers, listed as co-authors here, began a pilot study with Maple Watch in 2010, contributing sap samples and sharing curricular activities with UNH. Pilot Maple Watch schools already manage stands of sugar maples and make maple syrup and are assisting in training new schools in Maple Watch protocols. The program also includes assessment of educational philosophy as we consider how to discuss climate change with K-12 students. Maple Watch teachers are learning how to discuss the death of a tree, extirpation of a species, and human connections with nature.

Block Play: Spatial Language with Preschool and School-Aged Children

ERIC Educational Resources Information Center

Cohen, Lynn E.; Emmons, Janet

2017-01-01

Implementing a play-based curriculum presents challenges for pre-service and in-service teachers given the current climate of standards and didactic pedagogies. This study highlights the value of playful learning and its rightful place in early childhood classrooms for children of all ages. The purpose of the present study was to investigate the…

Bringing Engineering Design into High School Science Classrooms: The Heating/Cooling Unit

ERIC Educational Resources Information Center

Apedoe, Xornam S.; Reynolds, Birdy; Ellefson, Michelle R.; Schunn, Christian D.

2008-01-01

Infusing engineering design projects in K-12 settings can promote interest and attract a wide range of students to engineering careers. However, the current climate of high-stakes testing and accountability to standards leaves little room to incorporate engineering design into K-12 classrooms. We argue that design-based learning, the combination…

Using Surveys of Students' Social-Emotional Learning and School Climate for Accountability and Continuous Improvement

ERIC Educational Resources Information Center

Hough, Heather; Kalogrides, Demetra; Loeb, Susanna

2017-01-01

The research featured in this paper is part of the CORE-PACE Research Partnership, through which Policy Analysis for California Education (PACE) has partnered with the CORE districts to conduct research designed to support them in continuous improvement while simultaneously helping to improve policy and practice in California and nationwide.…

Making Friends and Buying Robots: How to Leverage Collaborations and Collections to Support STEM Learning

ERIC Educational Resources Information Center

Kvenild, Cassandra; Shepherd, Craig E.; Smith, Shannon M.; Thielk, Emma

2017-01-01

In a climate of increased interest in science, technology, engineering, and math (STEM), school libraries have unique opportunities to grow collections and cultivate partnerships in the sciences. At the federal level and in many states, STEM initiatives encourage hands-on exposure to technologies and open the door for student-led discovery of…

Empowering School Social Work Practices for Positive Youth Development: Hong Kong Experience

ERIC Educational Resources Information Center

To, Siu-ming

2007-01-01

Empowerment has become a popular concept in working with adolescents in recent years. It challenges the deficit model of youth work and focuses on creating a facilitative climate in which young people can make maximum use of the opportunity to learn and grow. While many practitioners have adopted the empowerment approach in youth services,…

Attitudes towards Teaching and Perceptions of School Climate among Health Education Teachers in the United States, 2011-2012

ERIC Educational Resources Information Center

Cardina, Catherine E.; Fegley, Joshua M.

2016-01-01

Purpose: In general, teachers who are highly satisfied are more motivated teachers and positively affect health and student learning to improve academic achievement. The purpose of this study was to provide national-level data with regard to teachers' attitudes, perceptions, and beliefs related to teaching, job satisfaction, and working…

A Study of Teachers, Students, and Parents' Perceptions of How School Climate Affects African-American and Latino Students

ERIC Educational Resources Information Center

Taylor, Susan M.

2009-01-01

Nationally, educational disparities have resulted in a significant achievement gap among African American and Latino students compared to European American students. Cognitive theorists including Piaget, Bruner, and Vygotsky believe that one's environment has an effect on learning. This qualitative case study examined teacher, student, and parent…

Broadening Views of Social Justice and Teacher Leadership: Addressing LGB Issues in Teacher Education

ERIC Educational Resources Information Center

Larrabee, Timothy G.; Morehead, Pamela

2010-01-01

Teachers play a critical role in improving teaching, learning, teacher-student relationships, and school climate, and teacher education programs have a responsibility to prepare teachers to work with every student in their classroom. Kosciw, Diaz, and Greytak (2008) reported that, between 2001 and 2007, although library resources on lesbian, gay,…

Communicating Climate Science to Kids and Adults Through Citizen Science, Hands-On Demonstrations, and a Personal Approach

NASA Astrophysics Data System (ADS)

Cherry, L.; Braasch, G.

2008-12-01

There is a demonstrated need to increase the amount of formal and non-formal science education and to raise the level of climate literacy for children and adults. Scientists and technical leaders are more and more being called on to speak in non-academic settings ranging from grade schools to assemblies and seminars for the general public. This abstract describes some effective ways to teach and talk about climate change science in a way that engenders hope and empowerment while explaining scientific facts and research methods to non-scientists. Citizen participation in Science People's interest and learning increases when offered chances to do what scientists do. Relating science to their daily lives and showing the adventure of science can greatly increase communication. Citizen participation in science works because data collection stimulates experiential and cognitive ways of learning. Learn what programs for citizen science are available in your area. For instance, GLOBE and Budburst tie into the research of Smithsonian scientists who determined that the cherry blossoms and 40 other species of plants were blooming earlier due to climate warming. Hands-on Outdoor Activities Information enters the human brain through many different neural pathways and the more avenues that information comes in on, the more likely people are to retain that knowledge for their lifetimes. For instance, kids knowledge of how ice cores tell us about the earth's ancient history will be reinforced through making ice cores in the classroom. Gary Braasch's photographs from the children's book How We Know What We Know About Our Changing Climate: Scientists and Kids Explore Global Warming and from his adult book Earth Under Fire: How Global Warming is Changing the World will illustrate the presentation. . Making the Message Personal to the Audience. Reaching people through things they care about, their family lives, work or school and telling personal stories helps reach people. The videos accompanying this session (shown on a laptop) will show what people are doing about climate change: a short trailer of an upcoming movie "CHILDREN'S VOICES: Climate Change Science and Solutions," featuring Anya Suslova, a Siberian girl who joined a scientific team from Woods Hole researching arctic melt- water into the Lena River. Inspired by Anya's story, NSF created the Polar Partners Project to replicate such citizen science around the Arctic Rim. General Techniques for Communicating Climate Change to Audiences In explaining studies, use photos or illustrations rather than graphs or charts. Show a photo of the creature or landscape you are studying and state the results of your work. Interject humor from cartoons Gary Larsen and Tom Toles cartoons are favorites; if you don't have a collection, look around your co-workers doors and bulletin boards Make it personal to the audience. Tell stories of what's happening to people and what people are doing about changes in climate and weather. Suggestions to Give Your Audience: Join or start the movement to "green" your school, community or state: Go on the internet and google: "climate change + your city". If your city doesn't have a plan, take a look at Cambridge, Mass. as a prototype and start your own: http://www.cambridgema.gov/cdd/et/climate/index.html#comm Climate change + Your university: Get involved. Go to the meetings. Your voice matters. class="ab'>

Storm Peak Laboratory 5th-6th Grade Climate and Weather Program

NASA Astrophysics Data System (ADS)

McCubbin, I. B.; Hallar, A. G.

2008-12-01

Storm Peak Laboratory (SPL) has created a place-based elementary school program, which has been implemented at five elementary schools in Northwest Colorado. Real understanding, not factual recall, is the primary goal and developing a desire to be lifelong learners in science is a secondary goal. The specific objectives of the program include the following: 1) Develop a weather and climate curriculum that teaches skills required by Colorado Student Assessment Program (CSAP). 2) Provide a hands-on place-based educational experience where students have an opportunity to use scientific equipment. 3) Provide students a three-day program that consists of an introduction, field program, and follow-up to help students grasp concepts and apply them to other school studies. 4) Provide all participating students with understanding of climate and weather 5) Build foundations for students to understand climate change. 6) Disseminate to alpine regions across the Western US, potentially impacting thousands of students that will experience the impacts of climate change during their lifetime. The SPL program spans three days for each school and includes five elementary schools. During the first day, a scientist and educators from SPL visit each classroom for two hours to introduce the concepts of climate and weather as well as teach students how to use scientific equipment. During the field program on the second day, students measure and record information about temperature, pressure, relative humidity, wind speed, and particle concentration while they travel to SPL via the gondola and chair lifts (in winter) or 4WD Suburbans (in fall). Once at the laboratory, students will meet with both SPL scientists and educators to tour the facility, discuss SPL research activities, and explore application of these activities to their curriculum. An alternative winter snowshoe program at the top of the gondola is offered to students who do not ski, where students have a program on snow science. At the end of the day each student has a data sheet with measurements recorded from 5 locations of different elevations to take back to the classroom. Following the field trip, SPL scientists and educators visit the school for a follow-up to help children grasp concepts, represent their data set collected in graphical formats, answer questions, and evaluate students" learning. Currently, approximately 250 students annually participate in the SPL 5th and 6th grade climate education program.

Building Energy-Efficient Schools in New Orleans: Lessons Learned (Brochure)

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

Not Available

This case study presents the lessons learned from incorporating energy efficiency in the rebuilding and renovating of New Orleans K-12 schools after Hurricanes Katrina and Rita. Hurricane Katrina was the largest natural disaster in the United States, striking the Gulf Coast on August 29, 2005, and flooding 80% of New Orleans; to make matters worse, the city was flooded again only three weeks later by the effects of Hurricane Rita. Many of the buildings, including schools, were heavily damaged. The devastation of schools in New Orleans from the hurricanes was exacerbated by many years of deferred school maintenance. This casemore » study presents the lessons learned from incorporating energy efficiency in the rebuilding and renovating of New Orleans K-12 schools after Hurricanes Katrina and Rita. The experiences of four new schools-Langston Hughes Elementary School, Andrew H. Wilson Elementary School (which was 50% new construction and 50% major renovation), L.B. Landry High School, and Lake Area High School-and one major renovation, Joseph A. Craig Elementary School-are described to help other school districts and design teams with their in-progress and future school building projects in hot-humid climates. Before Hurricane Katrina, New Orleans had 128 public schools. As part of the recovery planning, New Orleans Public Schools underwent an assessment and planning process to determine how many schools were needed and in what locations. Following a series of public town hall meetings and a district-wide comprehensive facility assessment, a Master Plan was developed, which outlined the renovation or construction of 85 schools throughout the city, which are expected to be completed by 2017. New Orleans Public Schools expects to build or renovate approximately eight schools each year over a 10-year period to achieve 21st century schools district-wide. Reconstruction costs are estimated at nearly $2 billion.« less

Improving the Nation's Climate Literacy through the Next Generation Science Standards

NASA Astrophysics Data System (ADS)

Grogan, M.; Niepold, F.; Ledley, T. S.; Gold, A. U.; Breslyn, W. G.; Carley, S.

2013-12-01

Climate Literacy: The Essential Principles of Climate Science (2009) presented the information that is deemed important for individuals and communities to know and understand about Earth's climate, impacts of climate change, and approaches to adaptation or mitigation by a group of federal agencies, science and educational partners. These principles guided the development of the NRC Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas (2012) and the Next Generation Science Standards (NGSS, 2013). National Science Foundation recently funded two partnership projects which support the implementation of the climate component of the NGSS using the Climate Literacy framework. The first project, the Climate Literacy and Energy Awareness Network (CLEAN), was launched in 2010 as a National Science Digital Library (NSDL) Pathways project. CLEAN's primary effort is to steward a collection of educational resources around energy and climate topics and foster a community that supports learning about climate and energy topics. CLEAN's focus has been to integrate the effective use of the educational resources across all grade levels - with a particular focus on the middle-school through undergraduate levels (grades 6-16) and align the resources with educational standards. The second project, the Maryland and Delaware Climate Change Education, Assessment and Research (MADE-CLEAR) program is supported by a Phase II Climate Change Education Partnership (CCEP) grant awarded to the University System of Maryland (USM) by the National Science Foundation. The MADE-CLEAR project's related goals are to support innovations in interdisciplinary P-20 (preschool through graduate school) climate change education, and develop new pathways for teacher education and professional development leading to expertise in climate change content and pedagogy. Work in Maryland, Delaware (MADE-CLEAR) and other states on the implementation of the NGSS, that will utilize the years of work, the efforts of hundreds of community members and tens of millions of dollars of investment and to increase the nations climate literacy, will be highlighted. We will particularly focus on the partnerships among MADE-CLEAR, NOAA and CLEAN. Climate science and energy are complex topics, with rapidly developing science and technology and the potential for controversy. The NGSS offer educators an opportunity to effectively bring these important subjects into their classrooms across a learning progression spanning K-12 and well beyond. Yet regardless of the pedagogic setting, using a literacy-based approach can provide a sound foundation for building learners' understanding of these topics. In this presentation, we will describe contributions by a group of collaborative projects and organizations to support the NGSS implementation through an integrated Earth system science approach in K-12 education.

Climate change in the classroom: Reaching out to middle school students through science and math suitcase lessons

NASA Astrophysics Data System (ADS)

Jacobo, A. C.; Collay, R.; Harris, R. N.; de Silva, L.

2011-12-01

We have formed a link between the Increasing Diversity in Earth Sciences (IDES) program with the Science and Math Investigative Learning Experiences (SMILE) program, both at Oregon State University. The IDES mission is to strengthen the understanding of Earth Sciences and their relevance to society among broad and diverse segments of the population and the SMILE mission is to provide science and math enrichment for underrepresented and other educationally underserved students in grades 4-12. Traditionally, underserved schools do not have enough time or resources to spend on science and mathematics. Furthermore, numerous budget cuts in many Oregon school districts have negatively impacted math and science cirriculum. To combat this trend we have designed suitcase lessons in climate change that can be carried to a number of classrooms. These lesson plans are scientifically rich and economically attractive. These lessons are designed to engage students in math and science through climate change presentations, group discussions, and hands-on activities. Over the past year we have familiarized ourselves with the academic ability of sixth and seventh graders through in-class observation in Salem Oregon. One of the suit case lessons we developed focuses on climate change by exploring the plight of polar bears in the face of diminishing sea ice. Our presentation will report the results of this activity.

Strengthening education in human values - The Link between Recycling and Climate Change

NASA Astrophysics Data System (ADS)

Kastanidou, Sofia

2014-05-01

This work is an environmental education program of 50 hours- off curriculum, currently run by High school of Nikaia - Larissas. I as coordinator teacher, another two teachers and 24 students participate in this program. Intended learning outcomes: students will be able to define the importance of climate change, to evaluate the effect of human activities on climate, and to recognize the role of recycling in preventing global climate change. It is an environmental program with social goals. That means students have to understand the link between human and environment and learn how to combine environmental protection with human help. As a consequence collaboration has already begun between High school of Nikaia and the Paraplegic & Physically Disabled Association of Pella-Greece. This is a nonprofit association that collects plastic caps; with the contribution of a recycling company the Paraplegic Association converts plastic caps in wheelchairs and gives them to needy families. So, recycling caps becomes a meaningful form of environmental and social activism. Students are educated about the meaning of recycling and encouraged to collect all types of plastic caps; they are also educated in the meaning of helping people. Further, this environmental education program consists of two parts, a theoretical and a practical one: a) Theoretical part: education is an essential element of the global response to climate change, so students have to research on climate change; they visit the Center for Environmental Education in Florina and experience the aquatic ecosystem of Prespa lakes; specialists of the Centre inform students about the effects of climate change on wetlands; students have further to research how recycling can help fight global climate change as well as examine how recycling a key component of modern waste reduction is, as the third component of the "Reduce, Reuse, Recycle" waste hierarchy; they discover the interdependence of society, economy and the natural environment; they visit the City Cleaning-Recycling Services; scientists visit our school and engage students in the climate change issue; students are educated in developing ecological consciousness paths to a sustainable future. b) Practical part: students use recycled materials to build containers where everyone can put the plastic caps; they decorate containers with other recyclable materials such as magazine clippings, ribbons etc.; students are encouraged to contact local organizations (municipality, post office, and banks), sports clubs and shops, to inform people about their action and to put the containers for plastic caps in the place they work or in their houses; they collect plastic caps frequently at school; at the end of the environmental education program all the students visit Paraplegic & Physically Disabled Association in Pella-Yannitsa and deliver the collected caps. We hope that students will leave the program with new skills, experiences and knowledge that can be used to help themselves, their communities, their environment and future generations. "Our changing planet - our changing society for a better future".

School satisfaction and social relations: Swedish schoolchildren's improvement suggestions.

PubMed

Persson, Louise; Haraldsson, Katarina; Hagquist, Curt

2016-01-01

The aim was to explore schoolchildren's views on how to increase school satisfaction and improve social relations among peers at school. Improvement suggestions were collected from school children aged 10-12 years with the help of a feedback model developed for the purpose. Qualitative content analysis was used. Two categories emerged from the analysis: 'psychosocial climate', which included the subcategories 'adults' roles and responsibilities' and 'classmates' norms and values'; 'influence', which included the subcategories 'changes in the physical environment' and 'flexible learning'. The categories are seen as important to increase school satisfaction and improve social relations among peers at school. Examining children's opinions is requested and promoted by the UN convention on the Rights of the Child. The findings contribute to the field by showing how school satisfaction and social relations might be improved, if the child perspective is considered in the planning of health promotion activities in school.

A Web-Based Polar Firn Model to Motivate Interest in Climate Change

NASA Astrophysics Data System (ADS)

Harris, P. D.; Lundin, J.; Stevens, C.; Leahy, W.; Waddington, E. D.

2013-12-01

How long would you have to dig straight down in Greenland before you reached solid ice? This is one of many questions that could be answered by a typical high school student using our online firn model. Firn is fallen snow that compacts under its own weight and eventually turns into glacial ice. The Herron and Langway (1980) firn model describes this process. An important component of predicting future climate change is researching past climate change. Some details of our past climate are discovered by analyzing polar ice and the firn process. Firn research can also be useful for understanding how changes in ice surface levels reflect changes in the ice mass. We have produced an online version of the Herron and Langway model that provides a simple way for students to learn how polar snow turns into ice. As a user, you can enter some climatic conditions (accumulation rate, temperature, and surface density) into our graphical user interface and press 'Submit'. We take the numbers you enter in your internet browser, send them to the model written in Python that is running on our server, and provide links to your results, all within seconds. The model produces firn depth, density, and age data. The results appear on the webpage in both text and graphical format. We have developed an example lesson plan appropriate for a high-school physics or environmental science class. The online model offers students an opportunity to apply their scientific knowledge in order to understand real-world physical processes. Additionally, students learn about scientific research and the tools scientists use to conduct it. The model can be used as a standalone lesson or as a part of a larger climate-science unit. The online model was created with funding from the Washington NASA Space Grant Consortium and the National Science Foundation's Partnerships for International Research and Education program.

Engaging Youth on Climate & Health to Cultivate Community Resilience

NASA Astrophysics Data System (ADS)

Haine, D. B.; Gray, K. M.; Chang, D.; Morton, T.; Steele, B.; Backus, A.; Hauptman, M.

2017-12-01

Cultivating climate literacy among youth positions them to develop solutions and advocate for actions that prepare communities to adapt to climate change, mitigate emissions and ultimately protect human health and well-being, with an eye towards protecting the most vulnerable populations. This presentation will describe an innovative partnership among three university environmental health programs—based at the University of North Carolina at Chapel Hill, Columbia University and Harvard University—and their community collaborators: the Alliance for Climate Education, Boston Children's Hospital Pediatric Environmental Health Center and WE ACT for Environmental Justice. This project engages youth through non-formal educational programming that promotes climate literacy while also building the capacity of today's youth to promote community resilience. This partnership led to the development and implementation of two, long-duration extracurricular youth science enrichment programs in 2017, one in North Carolina (NC) and one in New York, with joint activities conducted virtually and in person to connect students with each other and with leading public health professionals and others working to promote community resilience and climate justice. Forty high school students, 20 from central NC and 20 from West Harlem in New York City, are enrolled in each program. In July 2017, students came together for a 3-day summer institute in NC. This session will feature the strategies, STEM-based activities and resources used in this project to engage students in the examination of their communities, identification and evaluation of climate adaptation and mitigation strategies and promotion of community resilience. Programming entailed having students interact with public health professionals, scientists and others to learn about climate impacts to public health and its infrastructure, vulnerable populations and planning for resilient communities. Ultimately, we sought to promote climate literacy among students by providing relevant and authentic learning opportunities using the lenses of human health and social justice. This session will include program evaluation data and lessons learned as students from two different regions of the country came together to explore community resilience.

Lifelines for High School Climate Change Education

NASA Astrophysics Data System (ADS)

Gould, A. D.

2012-12-01

The Lifelines project aims to establish a network of practicing high school teachers actively using climate change curricula by creating professional learning communities (PLCs) of teachers who, through remote meetings and workshops, maintain ongoing communication and sharing of best practices among colleagues to strengthen knowledge and promote effective teaching strategies. The project explores techniques to achieve the most effective teleconferencing meetings and workshops. This promotes not only teaching about minimizing environmental impacts of human activity, but minimizes environmental impacts of professional development — practicing what we preach. To date, Lifelines PLCs have set up websites and e-mail lists for sharing information. Teleconferences and webinars have been held using services such as Skype, ReadyTalk, and Wiggio. Many of the meetings have been recorded and archived for the benefit of members who could not attend in real-time.

Preparing Teachers to Support the Development of Climate Literate Students

NASA Astrophysics Data System (ADS)

Haddad, N.; Ledley, T. S.; Ellins, K. K.; Bardar, E. W.; Youngman, E.; Dunlap, C.; Lockwood, J.; Mote, A. S.; McNeal, K.; Libarkin, J. C.; Lynds, S. E.; Gold, A. U.

2014-12-01

The EarthLabs climate project includes curriculum development, teacher professional development, teacher leadership development, and research on student learning, all directed at increasing high school teachers' and students' understanding of the factors that shape our planet's climate. The project has developed four new modules which focus on climate literacy and which are part of the larger Web based EarthLabs collection of Earth science modules. Climate related themes highlighted in the new modules include the Earth system with its positive and negative feedback loops; the range of temporal and spatial scales at which climate, weather, and other Earth system processes occur; and the recurring question, "How do we know what we know about Earth's past and present climate?" which addresses proxy data and scientific instrumentation. EarthLabs climate modules use two central strategies to help students navigate the multiple challenges inherent in understanding climate science. The first is to actively engage students with the content by using a variety of learning modes, and by allowing students to pace themselves through interactive visualizations that address particularly challenging content. The second strategy, which is the focus of this presentation, is to support teachers in a subject area where few have substantive content knowledge or technical skills. Teachers who grasp the processes and interactions that give Earth its climate and the technical skills to engage with relevant data and visualizations are more likely to be successful in supporting students' understanding of climate's complexities. This presentation will briefly introduce the EarthLabs project and will describe the steps the project takes to prepare climate literate teachers, including Web based resources, teacher workshops, and the development of a cadre of teacher leaders who are prepared to continue leading the workshops after project funding ends.

Special Education Students Improve Academic Performance through Problem-Based Learning and Technology

NASA Astrophysics Data System (ADS)

Freeman, S.; Kintsch, A.

2003-12-01

Boulder High School Special Education students work in teams on donated wireless computers to solve problems created by global climate change. Their text is Richard Somerville's The Forgiving Air. They utilize Wheeling Jesuit University's remote sensing web site and private computer bulletin board. Their central source for problem-based learning (PBL) is www.cotf.edu, NASA's Classroom of the Future Global Change web site. As a result, students not only improve their abilities to write, read, do math and research, speak, and work as team members, they also improve self-esteem, resilience, and willingness to take more challenging classes. Two special education students passed AP exams, Calculus and U.S. Government, last spring and Jay Matthews of Newsweek rates Boulder High as 201st of the nation's top 1000 high schools.

Profiles of Student Perceptions of School Climate: Relations with Risk Behaviors and Academic Outcomes.

PubMed

Shukla, Kathan; Konold, Timothy; Cornell, Dewey

2016-06-01

School climate has been linked to a variety of positive student outcomes, but there may be important within-school differences among students in their experiences of school climate. This study examined within-school heterogeneity among 47,631 high school student ratings of their school climate through multilevel latent class modeling. Student profiles across 323 schools were generated on the basis of multiple indicators of school climate: disciplinary structure, academic expectations, student willingness to seek help, respect for students, affective and cognitive engagement, prevalence of teasing and bullying, general victimization, bullying victimization, and bullying perpetration. Analyses identified four meaningfully different student profile types that were labeled positive climate, medium climate-low bullying, medium climate-high bullying, and negative climate. Contrasts among these profile types on external criteria revealed meaningful differences for race, grade-level, parent education level, educational aspirations, and frequency of risk behaviors. © Society for Community Research and Action 2016.

Promoting Climate Literacy and Conceptual Understanding among In-service Secondary Science Teachers requires an Epistemological Perspective

NASA Astrophysics Data System (ADS)

Bhattacharya, D.; Forbes, C.; Roehrig, G.; Chandler, M. A.

2017-12-01

Promoting climate literacy among in-service science teachers necessitates an understanding of fundamental concepts about the Earth's climate System (USGCRP, 2009). Very few teachers report having any formal instruction in climate science (Plutzer et al., 2016), therefore, rather simple conceptions of climate systems and their variability exist, which has implications for students' science learning (Francies et al., 1993; Libarkin, 2005; Rebich, 2005). This study uses the inferences from a NASA Innovations in Climate Education (NICE) teacher professional development program (CYCLES) to establish the necessity for developing an epistemological perspective among teachers. In CYCLES, 19 middle and high school (male=8, female=11) teachers were assessed for their understanding of global climate change (GCC). A qualitative analysis of their concept maps and an alignment of their conceptions with the Essential Principles of Climate Literacy (NOAA, 2009) demonstrated that participants emphasized on EPCL 1, 3, 6, 7 focusing on the Earth system, atmospheric, social and ecological impacts of GCC. However, EPCL 4 (variability in climate) and 5 (data-based observations and modeling) were least represented and emphasized upon. Thus, participants' descriptions about global climatic patterns were often factual rather than incorporating causation (why the temperatures are increasing) and/or correlation (describing what other factors might influence global temperatures). Therefore, engaging with epistemic dimensions of climate science to understand the processes, tools, and norms through which climate scientists study the Earth's climate system (Huxter et al., 2013) is critical for developing an in-depth conceptual understanding of climate. CLiMES (Climate Modeling and Epistemology of Science), a NSF initiative proposes to use EzGCM (EzGlobal Climate Model) to engage students and teachers in designing and running simulations, performing data processing activities, and analyzing computational models to develop their own evidence-based claims about the Earth's climate system. We describe how epistemological investigations can be conducted using EzGCM to bring the scientific process and authentic climate science practice to middle and high school classrooms.

Convening Young Leaders for Climate Resilience in New York State

NASA Astrophysics Data System (ADS)

Kretser, J.

2017-12-01

This project, led by The Wild Center, will partner with Cornell Cooperative Extension of Delaware County, the Kurt Hahn Expeditionary Learning School in Brooklyn, and the Alliance for Climate Education to do the following over three years: 1) increase climate literacy and preparedness planning in high school students through place-based Youth Climate Summits in the Adirondacks, Catskills, and New York City; 2) enhance young people's capacity to lead on climate issues through a Youth Climate Leadership Practicum 3) increase teacher comprehension and understanding of climate change through a Teacher Climate Institute and 4) communicate climate change impacts and resilience through student-driven Community Climate Outreach activities. The project will align with New York State's climate resiliency planning by collaborating with the NYS Department of Environmental Conservation Office of Climate (OCC), NYS Energy Research Development Authority (NYSERDA), and NOAA's Climate Program Office to provide accurate scientific information, resources, and tools. This collaboration will result in an increase in understanding of the impacts of climate change in rural (Adirondacks, Catskills) and urban (New York City) regions of New York State; a wider awareness of the threats and vulnerabilities that are associated with a community's location; and a stronger connection between current community resilience initiatives, educators, and youth. All three of the project sites are critically underserved in both climate literacy and action, making addressing the need of these sites to be resilient and proactive in the face of climate change critical. Our model will provide pilot lessons for how youth in both rural and urban areas can draw on local assets to address resiliency in ways appropriate for their own areas, and these lessons may be able to be applied across the United States.The proposed project is informed by best practices and specifically strengthens and replicates The Wild Center's past success with the Adirondack Youth Climate Summit, student leadership, and student-led community outreach for climate awareness - all work that has been tested or piloted over the last seven years.

Teaching About The Nexus of Energy, Water and Climate Through Traditional Games

NASA Astrophysics Data System (ADS)

Hall, M. K.; Mayhew, M. A.; Kaminsky, A.

2011-12-01

Getting to a sustainable energy economy, while conserving water resources and mitigating climate change, will involve myriad choices. Thus, it is important that the American public have an improved science-based understanding to form a strong basis for decision-making and to understand the trade-offs. To address this need, we are developing compelling, resource management style games that convey the intimate inter-relationships among energy demand, water consumption, and climate change and the importance of these inter-relationships to society. We have developed a card game with the help of professional game developer and an advisory group consisting of high school students and scientists involved with different aspects of energy-climate-water research as well as experts from the energy utilities and regulatory sectors. We have developed the card game based on real world data on energy production and consumption, regional climate information, and knowledge of emerging technologies that would mitigate the demand for energy, consumption of water with energy production, or climate change. The game is being played within the setting of our Cafe Scientifique program, now in its fifth year of serving high school age teens. One of the important aspects of the game is to find the right balance of energy output for various sources, water use by these sources, and amount of "pollution" generated (CO2 impacting climate, but also other kinds, such a radioactive waste and ground water contamination). Each player acts as "governor" of a specific region of the country, and no region has an a priori advantage. At the same time, it is important that the energy-water-pollution values we use correspond as closely as possible to real-world values. Data gathered from a combination of focus groups, surveys, and observations strongly suggest that this game, grounded in real life problems, stimulates authentic, meaningful learning. There is also some evidence that if games, such as this, are played in an educational context (formal or informal), learning can be furthered when game playing is supported by related lecturers and discussions before or after. At the same time, people who participated in focus groups acknowledged that only a subset of the population would be willing to play such games by choice on their own time. This last point is probably due more to broader cultural perspectives on education and learning in the United States than anything intrinsic to the game. Although those indicating that they'd play the game on their own time were in the minority, most participants could see playing the game in class, emphasizing that the game made learning both more fun, more meaningful, and more durable.

Teachers' Perspectives on School Climate at a Low-Performing School

ERIC Educational Resources Information Center

Carson, Paul Kit

2012-01-01

A number of research studies have indicated that issues with school climate may be a source of the low academic and social success of students in the public school system. A poor school climate is often associated with low-performing schools; a positive school climate can increase student achievement and other indicators of school success such as…

Weighing in on the Teacher Merit Pay Debate. Notes

ERIC Educational Resources Information Center

Froese-Germain, Bernie

2011-01-01

First the good news. There's a growing consensus that the quality of teachers and teaching is a major factor--some would say the most important school-based factor--in the quality of student learning. In sum (and this comes as no surprise to the teaching profession), good teaching matters. The bad news is that, in this highly charged climate of…

Using Surveys of Students' Social-Emotional Learning and School Climate for Accountability and Continuous Improvement. Policy Brief 17-1

ERIC Educational Resources Information Center

Hough, Heather; Kalogrides, Demetra; Loeb, Susanna

2017-01-01

The research featured in this paper is part of the CORE-PACE Research Partnership, through which Policy Analysis for California Education (PACE) has partnered with the CORE districts to conduct research designed to support them in continuous improvement while simultaneously helping to improve policy and practice in California and nationwide.…

A Rainbow [Dis]connection?: Comparing Perceptions on Pre-Service Teachers' Preparation to Work with Minority Sexual and Gender Identity Students

ERIC Educational Resources Information Center

Kaufman, Reagan J.

2013-01-01

Despite research demonstrating the effects of hostile school climates on the academic achievements of minority sexual and gender identity (MSGI) youth, little attention is paid to preparing future teachers to work with this diverse student population. Given the importance of making learning environments safe and welcoming for all students, this…

Maniac Talk - Paul Newman

NASA Image and Video Library

2015-02-25

Paul Newman Maniac Lecture, February 25, 2015 NASA climate scientist Dr. Paul Newman presented a Maniac Talk entitled "Some pretty good rules for a career: Newman's own lessons." Paul traced his journey from middle of Seattle, where he grew up, moved to rural Iowa for graduate school, and made his way to NASA/GSFC in 1984, and discussed lessons to be learned from the ozone depletion story.

Designing Summer Outreach Programs as an Engagement tool to connect Underserved and Underrepresented HS Students with Climate Science Topics

NASA Astrophysics Data System (ADS)

Olgin, J. G.; Güereque, M.; Pennington, D. D.; Ricketts, J.; Salas, K.

2017-12-01

The EarthTech outreach program at the University of Texas at El Paso (UTEP) seeks to expand the inclusion of underserved and under-represented high-school students into the geoscience pipeline. A successful partnership with the federally funded, year-round college preparatory program for high school students Upward Bound (UB) program at UTEP was decisive for the success and execution of the program. Program activities aimed to engage students and expand their knowledge of the Earth Sciences through participation in STEM hands-on activities, incorporating technology and field experiences. For its third year, the program chose to address the intersection of climate science and societal issues by selecting an overall topic for the week-long program that students could relate and understand from personal experiences, facilitating participation. The exposure to outdoor on-site learning experiences via field trips, coupled with introducing data analysis projects using NASA's GLOBE program, proved to be critical learning components based on student feedback; allowing students to engage with their surroundings and relate to basic Earth Science knowledge and principles. Qualitative feedback and discussion of the program and its activities are presented here.

Students Around the World Engaged in Climate Science (Invited)

NASA Astrophysics Data System (ADS)

Sparrow, E. B.; Kopplin, M.; Boger, R.; Jaroensutasinee, K.; Jaroensutasinee, M.; Yoshikawa, K.; Morris, K.; Gordon, L. S.; Yule, S.

2013-12-01

One of the GLOBE (Global Learning and Observations to Benefit the Environment) earth system science projects, Monitoring Seasons Through Global Learning Communities also called Seasons and Biomes, has engaged primary and secondary teachers and their students in weather and climate studies in collaboration with scientists and community experts. In this worldwide inquiry- and project-based initiative, students have been monitoring indicators of interannual variability in seasons, such as green-up and green-down of plants, air and soil temperature, soil moisture, precipitation, cloud types, percent cloud cover, as well as learning the difference between weather and climate. They have used standardized scientific measurements developed in GLOBE for investigations on atmosphere, soils, hydrology, land cover and phenology as well as those developed in Seasons and Biomes, such as ice seasonality protocols, frost tube and mosquito protocols. Studies have ranged from individuals to small groups of students, classes to schools, local to regional to global reach and involvement. Global learning communities have formed through professional development workshops conducted by Seasons and Biomes in the U.S. and other countries (more than 1600 educators in 51 countries) as well as through collaborative projects like the cross-continent videoconferences, GS-Pals project facilitated by GLOBE Alumni, the Mt Kilimanjaro expeditions, Mosquito studies in Thailand, and Permafrost and Active Layer Monitoring (over 22,000 students). Seasons and Biomes and GLOBE have provided the tools and infrastructure for observing, measuring, recording, archiving, and analysis of data, including venues for communicating results. Students have presented their projects locally, nationally and internationally and have contributed to climate studies and cross-cultural enrichment.

Investigating engagement, thinking, and learning among culturally diverse, urban sixth graders experiencing an inquiry-based science curriculum, contextualized in the local environment

NASA Astrophysics Data System (ADS)

Kelley, Sybil Schantz

This mixed-methods study combined pragmatism, sociocultural perspectives, and systems thinking concepts to investigate students' engagement, thinking, and learning in science in an urban, K-8 arts, science, and technology magnet school. A grant-funded school-university partnership supported the implementation of an inquiry-based science curriculum, contextualized in the local environment through field experiences. The researcher worked as co-teacher of 3 sixth-grade science classes and was deeply involved in the daily routines of the school. The purposes of the study were to build a deeper understanding of the complex interactions that take place in an urban science classroom, including challenges related to implementing culturally-relevant instruction; and to offer insight into the role educational systems play in supporting teaching and learning. The central hypothesis was that connecting learning to meaningful experiences in the local environment can provide culturally accessible points of engagement from which to build science learning. Descriptive measures provided an assessment of students' engagement in science activities, as well as their levels of thinking and learning throughout the school year. Combined with analyses of students' work files and focus group responses, these findings provided strong evidence of engagement attributable to the inquiry-based curriculum. In some instances, degree of engagement was found to be affected by student "reluctance" and "resistance," terms defined but needing further examination. A confounding result showed marked increases in thinking levels coupled with stasis or decrease in learning. Congruent with past studies, data indicated the presence of tension between the diverse cultures of students and the mainstream cultures of school and science. Findings were synthesized with existing literature to generate the study's principal product, a grounded theory model representing the complex, interacting factors involved in teaching and learning. The model shows that to support learning and to overcome cultural tensions, there must be alignment among three main forces or "causal factors": students, teaching, and school climate. Conclusions emphasize system-level changes to support science learning, including individualized support for students in the form of differentiated instruction; focus on excellence in teaching, particularly through career-spanning professional support for teachers; and attention to identifying key leverage points for implementing effective change.

State Policies on School Climate and Bully Prevention Efforts: Challenges and Opportunities for Deepening State Policy Support for Safe and Civil Schools

ERIC Educational Resources Information Center

Piscatelli, Jennifer; Lee, Chiqueena

2011-01-01

The National School Climate Center (NSCC) completed a 50-state policy scan on state school climate and anti-bullying policies to better understand the current state policy infrastructure supporting the development of positive school climates. This policy brief examines the current status of school climate and anti-bullying policies in each state,…

The Meriden School Climate Survey-Student Version: Preliminary Evidence of Reliability and Validity

ERIC Educational Resources Information Center

Gage, Nicholas A.; Larson, Alvin; Chafouleas, Sandra M.

2016-01-01

School climate has been linked with myriad positive student outcomes and the measurement of school climate is widely advocated at the national and state level. However, districts have little guidance about how to define and measure school climate. This study examines the psychometric properties of a district-developed school climate measure that…

School Climate Improvement Action Guide for Working with Students. School Climate Improvement Resource Package

ERIC Educational Resources Information Center

National Center on Safe Supportive Learning Environments, 2017

2017-01-01

Improving school climate takes time and commitment from a variety of people in a variety of roles. This document outlines key action steps to engage students in the school climate improvement process. Key action steps are provided for the following strategies: (1) Participate in planning for school climate improvements; (2) Engage stakeholders in…

School Climate Improvement Action Guide for Working with Families. School Climate Improvement Resource Package

ERIC Educational Resources Information Center

National Center on Safe Supportive Learning Environments, 2017

2017-01-01

Improving school climate takes time and commitment from a variety of people in a variety of roles. This document outlines how family members--including guardians of students--can support school climate improvements. Key action steps are provided for the following strategies: (1) Participate in planning for school climate improvements; (2) Engage…

The GLOBE Carbon Cycle Project: Using a systems approach to understand carbon and the Earth's climate system

NASA Astrophysics Data System (ADS)

Silverberg, S. K.; Ollinger, S. V.; Martin, M. E.; Gengarelly, L. M.; Schloss, A. L.; Bourgeault, J. L.; Randolph, G.; Albrechtova, J.

2009-12-01

National Science Content Standards identify systems as an important unifying concept across the K-12 curriculum. While this standard exists, there is a recognized gap in the ability of students to use a systems thinking approach in their learning. In a similar vein, both popular media as well as some educational curricula move quickly through climate topics to carbon footprint analyses without ever addressing the nature of carbon or the carbon cycle. If students do not gain a concrete understanding of carbon’s role in climate and energy they will not be able to successfully tackle global problems and develop innovative solutions. By participating in the GLOBE Carbon Cycle project, students learn to use a systems thinking approach, while at the same time, gaining a foundation in the carbon cycle and it's relation to climate and energy. Here we present the GLOBE Carbon Cycle project and materials, which incorporate a diverse set of activities geared toward upper middle and high school students with a variety of learning styles. A global carbon cycle adventure story and game let students see the carbon cycle as a complete system, while introducing them to systems thinking concepts including reservoirs, fluxes and equilibrium. Classroom photosynthesis experiments and field measurements of schoolyard vegetation brings the global view to the local level. And the use of computer models at varying levels of complexity (effects on photosynthesis, biomass and carbon storage in global biomes, global carbon cycle) not only reinforces systems concepts and carbon content, but also introduces students to an important scientific tool necessary for understanding climate change.

Improving Predictions and Management of Hydrological Extremes through Climate Services

NASA Astrophysics Data System (ADS)

van den Hurk, Bart; Wijngaard, Janet; Pappenberger, Florian; Bouwer, Laurens; Weerts, Albrecht; Buontempo, Carlo; Doescher, Ralf; Manez, Maria; Ramos, Maria-Helena; Hananel, Cedric; Ercin, Ertug; Hunink, Johannes; Klein, Bastian; Pouget, Laurent; Ward, Philip

2016-04-01

The EU Roadmap on Climate Services can be seen as a result of convergence between the society's call for "actionable research", and the climate research community providing tailored data, information and knowledge. However, although weather and climate have clearly distinct definitions, a strong link between weather and climate services exists that is not explored extensively. Stakeholders being interviewed in the context of the Roadmap consider climate as a far distant long term feature that is difficult to consider in present-day decision taking, which is dominated by daily experience with handling extreme events. It is argued that this experience is a rich source of inspiration to increase society's resilience to an unknown future. A newly started European research project, IMPREX, is built on the notion that "experience in managing current day weather extremes is the best learning school to anticipate consequences of future climate". This paper illustrates possible ways to increase the link between information and services addressing weather and climate time scales by discussing the underlying concepts of IMPREX and its expected outcome.

Climate Literacy from the Plains to the Peaks: Challenges in Teaching Climate in Colorado Classrooms

NASA Astrophysics Data System (ADS)

Hafich, K. A.; Martens, W.; Fletcher, H.; MacFerrin, B.; Morrison, D.; Stone, J.; Collins, M. C.; Chastain, M.; Hager, C.; Duncan, E.; Gay, C. J.; Kurz, J. D.; Manning, C. B.; Graves, B. J.; Bloomfield, L.

2015-12-01

Boulder, Colorado is a central hub of climate research and education resources, yet teachers less than two hours away struggle to find relevant climate curriculum and meaningful connections to climate scientists. Learn More About Climate (LMAC), an initiative of the CU-Boulder Office for Outreach and Engagement was created to provide access to the most up-to-date scientific research in a user-friendly way that raises awareness and inspires an informed dialogue about climate change among Coloradans. LMAC produces classroom ready videos highlighting CU climate scientists, offers classroom visits and Skype sessions with scientists, and serves as a hub for the most recent climate news. LMAC recently formed a Teacher Advisory Board made up of eleven K12 teachers from across Colorado spanning rural, suburban, and urban school districts. Given different locations, demographics, and grade levels, each teacher faces different challenges teaching climate. Here we present our work to identify the primary challenges that our teacher advisors have encountered while teaching climate science in their classrooms. Furthermore, we are working to co-create dynamic solutions with the teachers to address these problems using the LMAC platform.

Elementary Student Perceptions of School Climate and Associations with Individual and School Factors

ERIC Educational Resources Information Center

La Salle, Tamika P.; Zabek, Faith; Meyers, Joel

2016-01-01

School climate has increasingly been recognized as an essential component of school improvement owing to the established associations between a positive school climate and academic outcomes for students. Our study examines associations among a brief measure of school climate assessing elementary student perceptions and the College and Career Ready…

Multilevel Multi-Informant Structure of the Authoritative School Climate Survey

ERIC Educational Resources Information Center

Konold, Timothy; Cornell, Dewey; Huang, Francis; Meyer, Patrick; Lacey, Anna; Nekvasil, Erin; Heilbrun, Anna; Shukla, Kathan

2014-01-01

The Authoritative School Climate Survey was designed to provide schools with a brief assessment of 2 key characteristics of school climate--disciplinary structure and student support--that are hypothesized to influence 2 important school climate outcomes--student engagement and prevalence of teasing and bullying in school. The factor structure of…

Differences in school climate and student engagement in China and the United States.

PubMed

Bear, George G; Yang, Chunyan; Chen, Dandan; He, Xianyou; Xie, Jia-Shu; Huang, Xishan

2018-06-01

The purpose of this study was to examine differences between American and Chinese students in their perceptions of school climate and engagement in school, and in the relation between school climate and engagement. Confirmatory factor analyses were used to support the factor structure and measurement invariance of the two measures administered: The Delaware School Climate Survey-Student and the Delaware Student Engagement Scale. Differences in latent means were tested, and differences in relations between variables were examined using multilevel hierarchical linear modeling. Participants consisted of 3,176 Chinese and 4,085 American students, Grades 3-5, 7-8, and 10-12. Chinese students perceived school climate more favorably than American students, particularly beyond elementary school. Findings were more complex for student engagement. In elementary school, American students reported greater cognitive-behavioral and emotional engagement, and especially the former. In middle school and high school, Chinese students reported greater emotional engagement; however, no significant differences were found for cognitive-behavioral engagement. Most intriguing were results of multilevel hierarchical modeling that examined associations between school climate and student engagement: They were significant in American schools but not Chinese schools. Chinese students, compared with American students, perceived the climate of their schools more favorably, especially after elementary school. However, among Chinese students, their perceptions of school climate were unrelated to their self-reported engagement in school-school climate did not seem to matter as much. (PsycINFO Database Record (c) 2018 APA, all rights reserved).

Climate change science education across schools, campuses, and centers: strategies and successes

NASA Astrophysics Data System (ADS)

Merrill, J.; Harcourt, P.; Rogers, M.; Buttram, J.; Petrone, C.; Veron, D. E.; Sezen-Barrie, A.; Stylinski, C.; Ozbay, G.

2016-02-01

With established partnerships in higher education, K-12, and informal science education communities across Delaware and Maryland, the NSF-funded MADE CLEAR project (Maryland Delaware Climate Change Education, Assessment, and Research) has instituted a suite of professional development strategies to bring climate change science into science education methods courses, K-12 classrooms, university lecture halls, and public park facilities. MADE CLEAR partners have provided consistent climate literacy topics (mechanisms, human contributions, local and global impacts, mitigation and adaptation) while meeting the unique needs of each professional community. In-person topical lectures, hands-on work with classroom materials, seed funding for development of new education kits, and on-line live and recorded sessions are some of the tools employed by the team to meet those needs and build enduring capacity for climate change science education. The scope of expertise of the MADE CLEAR team, with climate scientists, educators, learning scientists, and managers has provided not only PD tailored for each education audience, but has also created, fostered, and strengthened relationships across those audiences for long-term sustainability of the newly-built capacity. Specific examples include new climate change programs planned for implementation across Delaware State Parks that will be consistent with middle school curriculum; integration of climate change topics into science methods classes for pre-service teachers at four universities; and active K-12 and informal science education teams working to cooperatively develop lessons that apply informal science education techniques and formal education pedagogy. Evaluations by participants highlight the utility of personal connections, access to experts, mentoring and models for developing implementation plans.

Middle School Improvement and Reform: Development and Validation of a School-Level Assessment of Climate, Cultural Pluralism, and School Safety.

ERIC Educational Resources Information Center

Brand, Stephen; Felner, Robert; Shim, Minsuk; Seitsinger, Anne; Dumas, Thaddeus

2003-01-01

Examines the structure of perceived school climate and the relationship of climate dimensions to adaptation of students who attend middle-grade-level schools. The climate scales exhibited a stable dimensional structure, high levels of internal consistency, and moderate levels of stability. Ratings of multiple climate dimensions were associated…

Climate change negotiation simulations for students: responses across gender and age.A case study: San Francisco State University World Climate Exercises

NASA Astrophysics Data System (ADS)

Rasheva, E. A.

2015-12-01

For decades, role-play and simulation exercises have been utilized for learning and policy decision making. While the power of Model UN simulations in building first-person experience and understanding of complex international issues is well known, the effectiveness of simulations for inspiring citizen engagement in scientific public-policy issues is little studied. My work hypothesizes that climate-change negotiation simulations can enhance students' scientific literacy and policy advocacy. It aims to determine how age and gender influence the responsiveness of students to such simulations. During the 2015 fall semester, I am conducting World Climate exercises for fellow graduate and undergraduate students at San Francisco State University. At the end of the exercise, I will have collected the responses to an anonymous questionnaire in which the participants indicate age and gender. The questionnaire asks participants to describe their hopes and fears for the future and to propose public and personal actions for achieving a strong climate change agreement. I am tracking differences to determine whether participants' age and gender correlate with particular patterns of feeling and thinking. My future research will aim to determine whether and how strongly the World Climate Exercise has affected participants' actual policy engagement. This work will also reflect on my experiences as a World Climate facilitator. I will describe the facilitation process and then discuss some of my observations from the sessions. I will specify the challenges I have encountered and suggest strategies that can strengthen the learning process. World Climate is a computer-simulation-based climate change negotiations role-playing exercise developed by Climate Interactive in partnership with the System Dynamics Group at the MIT Sloan School of Management.

Student Perceptions of School Climate as Predictors of Office Discipline Referrals

ERIC Educational Resources Information Center

Gage, Nicholas A.; Larson, Alvin; Sugai, George; Chafouleas, Sandra M.

2016-01-01

Research indicates that school climate influences students' academic, social, and behavioral outcomes. Therefore, improving school climate provides a promising avenue for preventing academic, social, and behavioral difficulties. Research has examined school-level measurement of school climate, but few studies have examined student-level responses…

Pupils as GIS-Experts in the Context of Flood Risk - An Interactive Learning Environment for Secondary Schools

NASA Astrophysics Data System (ADS)

Goetzke, Roland; Hodam, Henryk; Rienow, Andreas; Voß, Kerstin

2013-04-01

Floods and their destructive consequences for local residents are distributed in the media periodically and are, accordingly, noticed by students. Especially the discussion about the impacts of an anthropogenic climate change on the frequency of extreme events reinforces the importance of addressing the subject in school curricula. Remote sensing and GIS offer a wide range of methods for analyzing problems of vulnerability and risk, but are normally not recognized in school education. Reasons for this are: teachers have not been taught how to use and interpret remote sensing data, and there is only little material or software which can be integrated into school lessons without considerable effort. The main goal of the German FIS-project ("Fernerkundung in Schulen" - "Remote Sensing in Schools") is the development of easy-to-use e-learning material in order to apply remote sensing methods in schools and thereby enforcing learning mechanisms based on the moderate constructivist learning theory. The interactive learning unit "Floods - Dealing with a constant threat" is a learning module for a double lesson that enables young students from age 12 to 16 to use geo data for a site analysis especially focusing on the threat of floods. Following a guiding question from a real-world situation, the students are in demand as experts for site analyses and, in the process, need to identify problems arising with a location decision. Their investigation includes measurements in the three-dimensional space of a study area near the Rhine River. Therefore the students are provided with data from a Digital Elevation Model (DEM), a satellite image and several GIS-layers. The different data sets have to be combined in order to achieve valuable results. At certain points the pupils need to reflect their decisions after incorporating new information against the background of flood risk. The presented learning module is designed in Flash and, thus, is platform-independent. It is freely available on the project's website. While animations impart background information, e.g. the generation of a DEM, the main module relies on real-time simulation. The learning module incorporates elements of game-based learning by making use of interactive simulations and design elements appealing to children and adolescents in order to engage them with the story, but it has a strong focus on the appropriate use of geo data in a scientific context all the same.

The Examining Your Environment through the Power of Data Project (EYE-POD) Project at NAU: Professional Development for Secondary Education Teachers Using Earth Sciences and GIS

NASA Astrophysics Data System (ADS)

Sample, J. C.; Rubino-Hare, L.; Claesgens, J.; Fredrickson, K.; Manone, M.; White, M.

2010-12-01

The EYE-POD project at Northern Arizona University is an NSF-ITEST-funded professional development program for secondary science (SS) and career technical education (CTE) teachers. The program recruited SS-CTE teacher pairs from Arizona and the surrounding region to participate in two-week workshops during Summer, 2010, and an advanced workshop ins Summer, 2011. The workshops are led by a team with distinct expertise in science content, professional development and pedagogy, GIS, and project evaluation. Learning modules and a workshop agenda are developed using the Legacy Cycle of learning. Rather than compartmentalize pedagogical, content, and GIS learning activities, they have been combined throughout the workshop timeline. Early activities focus on learning of climate and weather processes through GIS modules provided by ESRI-“Mapping our World” and “Analyzing our World”. Participants learn the technical aspects of GIS software while investigating real phenomena. The science/GIS learning activities are augmented by laboratory demonstrations and field data collection using Labquest handheld field measurement systems with a variety of probes. At the end of the first week teacher-participants presented the solution to a problem, using GIS-based climate and weather data, involving travel to various locations on Earth. The second week focused on classroom, lab, and field activities devoted to recommendations to the City of Flagstaff for development in the Rio de Flag floodplain. Teacher-participant groups presented solutions making claims and recommendations supported by evidence from georeferenced field data and other GIS data acquired from various sources. At the close of the workshop teachers were provided with GIS software, hardware for field data collection, and several reference materials to aid in curriculum development. They have been tasked with implementing two GIS-based Earth science content modules in their schools, to one science class and one CTE class. One module must involve a field-based problem at their school site. The EYE-POD team will provide support to each school team through site visits and phone consultation. As part of the project, data on learning efficacy is being collected by an independent evaluator and analyzed by a science education faculty member (summarized in companion paper by Claesgens, et al.).

School Climate in American Secondary Schools: A Psychometric Examination of PISA 2009 School Climate Scale

ERIC Educational Resources Information Center

Sun, Letao; Royal, Kenneth

2017-01-01

The purpose of this study was to examine the quality of the Program for International Student Assessment (PISA) 2009 school climate survey instrument and evaluate perceptions of secondary school principals' located in the United States about school climate using an Item Response Theory (IRT) methodological approach. In particular, this study…

Measuring School Climate: Using Existing Data Tools on Climate and Effectiveness to Inform School Organizational Health

ERIC Educational Resources Information Center

Durham, Rachel E.; Bettencourt, Amie; Connolly, Faith

2014-01-01

Despite--or perhaps due to--the lack of consensus on its definition, there is abundant interest in and research on school climate. Researchers have determined that improving school climate is one way to increase academic achievement, school safety, school completion, teacher retention, healthy social interactions, and student well-being (Cohen,…

School Climate Improvement Action Guide for School Leaders. School Climate Improvement Resource Package

ERIC Educational Resources Information Center

National Center on Safe Supportive Learning Environments, 2017

2017-01-01

Improving school climate takes time and commitment from a variety of people in a variety of roles. This document outlines key action steps that school leaders--including principals, assistant/vice principals, and building leaders--can take to support school climate improvements. Key action steps are provided for the following strategies: (1)…

Peer-tutoring educational experiences about meteorological and climatological issues in Friuli Venezia Giulia (Italy)

NASA Astrophysics Data System (ADS)

Nordio, Sergio; Flapp, Federica

2017-04-01

The aim of this work is to present some experiences of intergenerational education about meteorology and climatology issues carried out with school pupils from 6 to 19 years old, through peer-tutoring methodology. These experiences started in 2003 and each year the project involves about 500 students in Friuli Venezia Giulia region (about 8.000 km2) in northeastern Italy. A group of volunteers (older students from upper secondary school, 17-19 years old) play the role of "tutor": they receive supplementary training on meteorology and climatology, and then, during students' meetings and/or public events, they teach younger pupils how to use meteorological instruments (thermometer, hygrometer, barometer, anemometer, rain gages, etc.) and they carry out interactive experiences such as "game-experiments", to better understand some meteorological concepts, like density of fluids, and some climatological notions, like the effects of climate change with an exhibit that simulates the greenhouse effect. They also do some meteorological forecasting exercises, using meteorological maps, as if they were actual forecasters. All these activities are addressed to pupils from primary (age 6-11) and lower secondary schools (age 11-14), and both tutors and their younger "apprentices" are not only cognitively, but also emotionally involved in such learning experiences. As a second step of this educational process, after consolidating the above mentioned peer-tutoring activities, high school students hare being actively involved in developing visual tools - e.g. video-clips, interviews and cartoons - in order to communicate climate change issues in the most effective way to younger pupils. Keywords: meteorology, climatology, climate change, schools, education, communication.

Creating a lab to facilitate high school student engagement in authentic paleoclimate science practices

NASA Astrophysics Data System (ADS)

Maloney, A.; Walsh, E.

2012-12-01

A solid understanding of timescales is crucial for any climate change discussion. This hands-on lab was designed as part of a dual-credit climate change course in which high school students can receive college credit. Using homemade ice cores, students have the opportunity to participate in scientific practices associated with collecting, processing, and interpreting temperature and CO2 data. Exploring millennial-scale cycles in ice core data and extending the CO2 record to the present allows students to discover timescales from an investigators perspective. The Ice Core Lab has been piloted in two high school classrooms and student engagement, and epistemological and conceptual understanding was evaluated using quantitative pre and post assessment surveys. The process of creating this lab involved a partnership between an education assessment professional, high school teachers, and University of Washington professors and graduate students in Oceanography, Earth and Space Sciences, Atmospheric Sciences and the Learning Sciences as part of the NASA Global Climate Change University of Washington in the High School program. This interdisciplinary collaboration led to the inception of the lab and was necessary to ensure that the lesson plan was pedagogically appropriate and scientifically accurate. The lab fits into a unit about natural variability and is paired with additional hands-on activities created by other graduate students that explore short-timescale temperature variations, Milankovitch cycles, isotopes, and other proxies. While the Ice Core Lab is intended to follow units that review the scientific process, global energy budget, and transport, it can be modified to fit any teaching platform.

Preliminary development of a revised version of the School Climate Measure.

PubMed

Zullig, Keith J; Collins, Rani; Ghani, Nadia; Hunter, Amy A; Patton, Jon M; Huebner, E Scott; Zhang, Jianjun

2015-09-01

The School Climate Measure (SCM) was developed and preliminarily validated in 2010 and extended upon in 2013 in response to a dearth of psychometrically sound school climate instruments. This study sought to further validate the SCM on a large diverse sample of Arizona public school adolescents (N = 1,643) with two new domains. The eight original SCM domains (Positive Student-Teacher Relationships, School Connectedness, Academic Support, Order and Discipline, Physical Environment, Social Environment, Perceived Exclusion, and Academic Satisfaction) and two newly developed domains (Parental Involvement and Opportunities for Student Engagement) were subjected to psychometric analysis. The sample was randomly split into exploratory and confirmatory halves and subjected to factor analytic and structural equation modeling techniques. Factor analysis confirmed a 10-factor solution (loadings with absolute values > .40). Item factor loadings ranged from .47 to .95. Coefficient alphas ranged from .70 to .92. Fit statistics indicated a good fitting model (χ2 = 1452.67 [df = 734, p < .01], CFI = .94, TLI = .93, RMSEA = .039). This process eliminated some original SCM items, but the overall SCM increased only from 39 to 42 items with the newly developed domains. This investigation adds to the existing evidence for the SCM and offers support for a more comprehensive version of the SCM. The addition of the Parental Involvement and Opportunities for Student Engagement domains should further enhance the usefulness of the SCM. The SCM can facilitate data-driven decisions and may be incorporated into evidenced-based processes designed to improve important student learning and well-being outcomes. (c) 2015 APA, all rights reserved.

Evaluating Different Green School Building Designs for Albania: Indoor Thermal Comfort, Energy Use Analysis with Solar Systems

NASA Astrophysics Data System (ADS)

Dalvi, Ambalika Rajendra

Improving the conditions of schools in many parts of the world is gradually acquiring importance. The Green School movement is an integral part of this effort since it aims at improving indoor environmental conditions. This would in turn, enhance student- learning while minimizing adverse environmental impact through energy efficiency of comfort-related HVAC and lighting systems. This research, which is a part of a larger research project, aims at evaluating different school building designs in Albania in terms of energy use and indoor thermal comfort, and identify energy efficient options of existing schools. We start by identifying three different climate zones in Albania; Coastal (Durres), Hill/Pre-mountainous (Tirana), mountainous (Korca). Next, two prototypical school building designs are identified from the existing stock. Numerous scenarios are then identified for analysis which consists of combinations of climate zone, building type, building orientation, building upgrade levels, presence of renewable energy systems (solar photovoltaic and solar water heater). The existing building layouts, initially outlined in CAD software and then imported into a detailed building energy software program (eQuest) to perform annual simulations for all scenarios. The research also predicted indoor thermal comfort conditions of the various scenarios on the premise that windows could be opened to provide natural ventilation cooling when appropriate. This study also estimated the energy generated from solar photovoltaic systems and solar water heater systems when placed on the available roof area to determine the extent to which they are able to meet the required electric loads (plug and lights) and building heating loads respectively. The results showed that there is adequate indoor comfort without the need for mechanical cooling for the three climate zones, and that only heating is needed during the winter months.

Effect of the learning climate of residency programs on faculty's teaching performance as evaluated by residents.

PubMed

Lombarts, Kiki M J M H; Heineman, Maas Jan; Scherpbier, Albert J J A; Arah, Onyebuchi A

2014-01-01

To understand teaching performance of individual faculty, the climate in which residents' learning takes place, the learning climate, may be important. There is emerging evidence that specific climates do predict specific outcomes. Until now, the effect of learning climate on the performance of the individual faculty who actually do the teaching was unknown. THIS STUDY: (i) tested the hypothesis that a positive learning climate was associated with better teaching performance of individual faculty as evaluated by residents, and (ii) explored which dimensions of learning climate were associated with faculty's teaching performance. We conducted two cross-sectional questionnaire surveys amongst residents from 45 residency training programs and multiple specialties in 17 hospitals in the Netherlands. Residents evaluated the teaching performance of individual faculty using the robust System for Evaluating Teaching Qualities (SETQ) and evaluated the learning climate of residency programs using the Dutch Residency Educational Climate Test (D-RECT). The validated D-RECT questionnaire consisted of 11 subscales of learning climate. Main outcome measure was faculty's overall teaching (SETQ) score. We used multivariable adjusted linear mixed models to estimate the separate associations of overall learning climate and each of its subscales with faculty's teaching performance. In total 451 residents completed 3569 SETQ evaluations of 502 faculty. Residents also evaluated the learning climate of 45 residency programs in 17 hospitals in the Netherlands. Overall learning climate was positively associated with faculty's teaching performance (regression coefficient 0.54, 95% confidence interval: 0.37 to 0.71; P<0.001). Three out of 11 learning climate subscales were substantially associated with better teaching performance: 'coaching and assessment', 'work is adapted to residents' competence', and 'formal education'. Individual faculty's teaching performance evaluations are positively affected by better learning climate of residency programs.

An Analysis of the Attraction and Holding Power of Motor Skill Stations Used in a Mastery Motivational Physical Education Climate for Preschool Children

ERIC Educational Resources Information Center

Hastie, Peter A.; Johnson, Jerraco L.; Rudisill, Mary E.

2018-01-01

Background: The template for the current study was the project conducted by Rosenthal [1973. "An Ecological Study of Free Play in the Nursery School." Doctoral diss., Wayne State University] where she investigated the attraction and holding power of various learning centres during free play in a naturalistic preschool setting.…

Effective Classroom Management. The Basic Element of Effective Teaching. A Module for Undergraduate Instruction in Teacher Education in the RAFT Program at Mississippi State University.

ERIC Educational Resources Information Center

Handley, Herbert M., Ed.

This module, developed by the Research Applications for Teaching (RAFT) project, introduces the undergraduate student to practices of teachers in effective schools which facilitate the climate for learning in the classroom. Used with Canter's materials on assertive discipline, the preservice teachers should have an opportunity to reflect carefully…

School-wide implementation of the elements of effective classroom instruction: Lessons from a high-performing, high-poverty urban school

NASA Astrophysics Data System (ADS)

Dyson, Hilarie

2008-10-01

The purpose of the study was to identify structures and systems implemented in a high-performing high-poverty urban school to promote high academic achievement among students of color. The researcher used a sociocultural theoretical framework to examine the influence of culture on the structures and systems that increased performance by African American and Hispanic students. Four research questions guided the study: (1) What are the trends and patterns of student performance among students of color? (2) What are the organizational structures and systems that are perceived to contribute to high student performance in high-poverty urban schools with high concentrations of students of color? (3) How are the organizational structures and systems implemented to support school-wide effective classroom instruction that promotes student learning? (4) How is the construct of race reflected in the school's structures and systems? Qualitative data were collected through interviews, observations, and artifact collection. A single case study method was employed and collected data were triangulated to capture and explore the rich details of the study. The study focused on a high-performing high-poverty urban elementary school located in southern California. The school population consisted of 99% students of color and 93% were economically disadvantaged. The school was selected for making significant and consistent growth in Academic Performance Index and Adequate Yearly Progress over a 3-year period. The school-wide structures and systems studied were (a) leadership, (b) school climate and culture, (c) standards-based instruction, (d) data-driven decision making, and (e) professional development. Four common themes emerged from the findings: (a) instructional leadership that focused on teaching and learning; (b) high expectations for all students; (c) school-wide focus on student achievement using standards, data, and culturally responsive teaching; and (d) positive relationships and interactions among students, teachers, parents, and community. Suggestion for future research include a deep examination of how and why culturally relevant pedagogy supports students of color, research on leadership and its impact on creating a positive school climate and culture to produce high student achievement by students of color, and the impact of early education programs on student achievement among poor students and students of color.

Impact of Experience Corps(®) participation on school climate.

PubMed

Parisi, Jeanine M; Ramsey, Christine M; Carlson, Michelle C; Xue, Qian-Li; Huang, Jin; Romani, William A; McGill, Sylvia; Seeman, Teresa E; Tanner, Elizabeth K; Barron, Jeremy; Tan, Erwin J; Gruenewald, Tara L; Diibor, Ike; Fried, Linda P; Rebok, George W

2015-07-01

We examined the impact of the Experience Corps(®) (EC) program on school climate within Baltimore City public elementary schools. In this program, teams of older adult volunteers were placed in high intensity (>15 h per week), meaningful roles in public elementary schools, to improve the educational outcomes of children as well as the health and well-being of volunteers. During the first year of EC participation, school climate was perceived more favorably among staff and students in EC schools as compared to those in comparison schools. However, with a few notable exceptions, perceived school climate did not differ for staff or students in intervention and comparison schools during the second year of exposure to the EC program. These findings suggest that perceptions of school climate may be altered by introducing a new program into elementary schools; however, research examining how perceptions of school climate are impacted over a longer period is warranted.

Impact of Experience Corps® Participation on School Climate

PubMed Central

Parisi, Jeanine M.; Ramsey, Christine M.; Carlson, Michelle C.; Xue, Qian-Li; Huang, Jin; Romani, William A.; McGill, Sylvia; Seeman, Teresa E.; Tanner, Elizabeth K.; Barron, Jeremy; Tan, Erwin; Gruenewald, Tara L.; Diibor, Ike; Fried, Linda P.; Rebok, George W.

2015-01-01

We examined the impact of the Experience Corps® (EC) program on school climate within Baltimore City public elementary schools. In this program, teams of older adult volunteers were placed in high intensity (>15 hours per week), meaningful roles in public elementary schools, to improve the educational outcomes of children as well as the health and well-being of volunteers. During the first year of EC participation, school climate was perceived more favorably among staff and students in EC schools as compared to those in comparison schools. However, with a few notable exceptions, perceived school climate did not differ for staff or students in intervention and comparison schools during the second year of exposure to the EC program. These findings suggest that perceptions of school climate may be altered by introducing a new program into elementary schools; however, research examining how perceptions of school climate are impacted over a longer period is warranted. PMID:25708453

Positive school climate is associated with lower body mass index percentile among urban preadolescents.

PubMed

Gilstad-Hayden, Kathryn; Carroll-Scott, Amy; Rosenthal, Lisa; Peters, Susan M; McCaslin, Catherine; Ickovics, Jeannette R

2014-08-01

Schools are an important environmental context in children's lives and are part of the complex web of factors that contribute to childhood obesity. Increasingly, attention has been placed on the importance of school climate (connectedness, academic standards, engagement, and student autonomy) as 1 domain of school environment beyond health policies and education that may have implications for student health outcomes. The purpose of this study is to examine the association of school climate with body mass index (BMI) among urban preadolescents. Health surveys and physical measures were collected among fifth- and sixth-grade students from 12 randomly selected public schools in a small New England city. School climate surveys were completed district-wide by students and teachers. Hierarchical linear modeling was used to test the association between students' BMI and schools' climate scores. After controlling for potentially confounding individual-level characteristics, a 1-unit increase in school climate score (indicating more positive climate) was associated with a 7-point decrease in students' BMI percentile. Positive school climate is associated with lower student BMI percentile. More research is needed to understand the mechanisms behind this relationship and to explore whether interventions promoting positive school climate can effectively prevent and/or reduce obesity. © 2014, American School Health Association.

Working While in Middle School: Student Perceptions of School Climate & Connectedness

ERIC Educational Resources Information Center

Miller, Sabrena

2016-01-01

Does working during the school year result in lowered perceptions of school climate and connectedness for middle school students? According to outcomes from a Rocky Mountain Region School District's (RMRSD) school climate survey, 20% of their middle school student population works during the school year. Existing literature on youth employment…

An Investigation of the Relationship between the Components of School Climate and Leadership Behaviors on Student Achievement: Urban School Districts in the Mid-Atlantic Region

ERIC Educational Resources Information Center

Collins, Karmen J.

2015-01-01

The purpose of this research study was to investigate the relationship between the components of school climate and leadership behaviors on student achievement in an urban school district in the mid-atlantic region. School climate and leadership behaviors for the participating school districts was determined by the School Climate Survey (Corner…

How the Pacific Islands Climate Education Partnership (PCEP) Has Collaboratively Increased Regional Collective Impacts on Climate Literacy Via Networks of Diverse Stakeholders Engaging in Multiple Reinforcing Activities

NASA Astrophysics Data System (ADS)

Sussman, A.

2016-12-01

The Pacific Islands Climate Education Partnership (PCEP) serves the U.S. Affiliated Pacific Island (USAPI) Region. The international entities served by PCEP are the state of Hawai`i (USA); three Freely Associated States (the Federated States of Micronesia, the Republic of the Marshall Islands, and the Republic of Palau), and three Territories (Guam, Commonwealth of Northern Mariana Islands, and American Samoa). Funded by NSF, the PCEP aims to educate the region's students and citizens in ways that exemplify modern science and indigenous environmental knowledge, address the urgency of climate change impacts, and focus on adaptation strategies that can increase resiliency with respect to climate change impacts. PCEP partners include universities, education nonprofits, state or country offices/ministries of education, local ecological nonprofits, and a variety of community organizations. Partners contribute and share expertise in climate science, local ecological knowledge, K-12 education in the Pacific island region, science and environmental education, community college education, learning science, indigenous navigation, and oceanography. Over the past six years, PCEP has engaged with regional school systems and communities in a wide variety of ways that complement and reinforce each other. Highlighted activities include improving country and state climate science education standards; focusing on place-based local ecological knowledge and skills in working with schools and communities; developing and disseminating formal education resources such as books and web resources that focus on local contexts and skills rather than contextually inappropriate mainland the textbooks; developing and implementing professional development for teachers; and supporting local ways of knowing by gathering and sharing local stories of climate change; and promoting an emphasis on climate adaptation strategies that increase resilience of natural environments and community systems.

School Climate, Family Structure, and Academic Achievement: A Study of Moderation Effects

ERIC Educational Resources Information Center

O'Malley, Meagan; Voight, Adam; Renshaw, Tyler L.; Eklund, Katie

2015-01-01

School climate has been lauded for its relationship to a host of desirable academic, behavioral, and social-emotional outcomes for youth. The present study tested the hypothesis that school climate counteracts youths' home-school risk by examining the moderating effects of students' school climate perceptions on the relationship between family…

Peer Victimization and Authoritative School Climate: A Multilevel Approach

ERIC Educational Resources Information Center

Cornell, Dewey; Shukla, Kathan; Konold, Timothy

2015-01-01

School climate is widely recognized as an important influence on peer victimization in schools. The purpose of this study is to examine how authoritative school climate theory provides a framework for conceptualizing 2 key features of school climate--disciplinary structure and student support--that are associated with 3 measures of peer…

The Assessment of School Climate: Review and Appraisal of Published Student-Report Measures

ERIC Educational Resources Information Center

Ramelow, Daniela; Currie, Dorothy; Felder-Puig, Rosemarie

2015-01-01

School climate measurement is a long-standing topic in educational research. This review article provides an overview and appraisal of school climate measures published between 2003 and 2013 in scientific journals. A search for published school climate instruments for secondary school students was made in three databases. Twelve articles meeting…

The Association of School Climate, Depression Literacy, and Mental Health Stigma among High School Students

ERIC Educational Resources Information Center

Townsend, Lisa; Musci, Rashelle; Stuart, Elizabeth; Ruble, Anne; Beaudry, Mary B.; Schweizer, Barbara; Owen, Megan; Goode, Carly; Johnson, Sarah L.; Bradshaw, Catherine; Wilcox, Holly; Swartz, Karen

2017-01-01

Background: Although school climate is linked with youth educational, socioemotional, behavioral, and health outcomes, there has been limited research on the association between school climate and mental health education efforts. We explored whether school climate was associated with students' depression literacy and mental health stigma beliefs.…

School Climate Resource Document; Resources, Strategies, and Programs for Low-Achieving Students.

ERIC Educational Resources Information Center

Smey-Richman, Barbara; Barkley, William W.

After reviewing definitions of school climate with emphasis on the four dimensions of school climate described by Tagiuri (1968), this document examines factors within Tagiuri's school culture and social system dimensions as manifested in the climate of average elementary and secondary schools and as they affect low achievers. Variables examined…

School Climate: Historical Review, Instrument Development, and School Assessment

ERIC Educational Resources Information Center

Zullig, Keith J.; Koopman, Tommy M.; Patton, Jon M.; Ubbes, Valerie A.

2010-01-01

This study's purpose is to examine the existing school climate literature in an attempt to constitute its definition from a historical context and to create a valid and reliable student-reported school climate instrument. Five historically common school climate domains and five measurement tools were identified, combined, and previewed by the…

Infusing Climate and Energy Literacy Throughout the Curriculum: Challenges and Opportunities

NASA Astrophysics Data System (ADS)

McCaffrey, M. S.

2012-12-01

Climate change and human activities, particularly fossil fuel energy consumption-- both related and crosscutting concepts vital to addressing 21st century societal challenges-- are largely missing from traditional science education curriculum and standards. Whether due to deliberate misinformation, efforts to "teach the controversy", lack of teacher training and professional development or availability of engaging resources, students have for decades graduated from high school and even college without learning the basics of how human activities, particularly our reliance on fossil fuels, impact the environment in general and climate system in particular. The Climate Literacy, Energy Literacy and related frameworks and curriculum, as well as the Next Generation Science Standards (NGSS) and other innovative initiatives, provide new tools for educators and learners that hold strong potential for helping infuse these important topics across the curriculum and thereby better prepare society to minimize human impacts on the planet and prepare for changes that are already well underway.

Motivating learning, performance, and persistence: the synergistic effects of intrinsic goal contents and autonomy-supportive contexts.

PubMed

Vansteenkiste, Maarten; Simons, Joke; Lens, Willy; Sheldon, Kennon M; Deci, Edward L

2004-08-01

Three field experiments with high school and college students tested the self-determination theory hypotheses that intrinsic (vs. extrinsic) goals and autonomy-supportive (vs. controlling) learning climates would improve students' learning, performance, and persistence. The learning of text material or physical exercises was framed in terms of intrinsic (community, personal growth, health) versus extrinsic (money, image) goals, which were presented in an autonomy-supportive versus controlling manner. Analyses of variance confirmed that both experimentally manipulated variables yielded main effects on depth of processing, test performance, and persistence (all ps <.001), and an interaction resulted in synergistically high deep processing and test performance (but not persistence) when both intrinsic goals and autonomy support were present. Effects were significantly mediated by autonomous motivation.

Global Learning and Observation to Benefit the Environment (GLOBE) Mission EARTH (GME) program delivers climate change science content, pedagogy, and data resources to K12 educators, future teachers, and professional development providers.

NASA Astrophysics Data System (ADS)

Ostrom, T.

2017-12-01

This presentation will include a series of visuals that discuss how hands-on learning activities and field investigations from the the Global Learning and Observation to Benefit the Environment (GLOBE) Mission EARTH (GME) program deliver climate change science content, pedagogy, and data resources to K12 educators, future teachers, and professional development providers. The GME program poster presentation will also show how teachers strengthen student preparation for Science, Technology, Engineering, Art and Mathematics (STEAM)-related careers while promoting diversity in the future STEM workforce. In addition to engaging students in scientific inquiry, the GME program poster will show how career exploration and preparation experiences is accomplished through direct connection to scientists and real science practices. The poster will show which hands-on learning activities that are being implemented in more than 30,000 schools worldwide, with over a million students, teachers, and scientists collecting environmental measurements using the GLOBE scientific protocols. This poster will also include how Next Generation Science Standards connect to GME learning progressions by grade strands. The poster will present the first year of results from the implementation of the GME program. Data is currently being agrigated by the east, midwest and westen regional operations.

Exploring students' epistemological knowledge of models and modelling in science: results from a teaching/learning experience on climate change

NASA Astrophysics Data System (ADS)

Tasquier, Giulia; Levrini, Olivia; Dillon, Justin

2016-03-01

The scientific community has been debating climate change for over two decades. In the light of certain arguments put forward by the aforesaid community, the EU has recommended a set of innovative reforms to science teaching such as incorporating environmental issues into the scientific curriculum, thereby helping to make schools a place of civic education. However, despite these European recommendations, relatively little emphasis is still given to climate change within science curricula. Climate change, although potentially engaging for students, is a complex topic that poses conceptual difficulties and emotional barriers, as well as epistemological challenges. Whilst the conceptual and emotional barriers have already been the object of several studies, students' reactions to the epistemological issues raised by climate changes have so far been rarely explored in science education research and thus are the main focus of this paper. This paper describes a study concerning the implementation of teaching materials designed to focus on the epistemological role of 'models and the game of modelling' in science and particularly when dealing with climate change. The materials were implemented in a course of 15 hours (five 3-hour lessons) for a class of Italian secondary-school students (grade 11; 16-17 years old). The purpose of the study is to investigate students' reactions to the epistemological dimension of the materials, and to explore if and how the material enabled them to develop their epistemological knowledge on models.

Heliophysics as a Scientific Discipline

NASA Astrophysics Data System (ADS)

Greb, K.

2015-12-01

Heliophysics is a developing scientific discipline integrating studies of the Sun's variability, the surrounding heliosphere, and climate environments. Over the past few centuries our understanding of how the Sun drives space weather and climate on the Earth and other planets has advanced at an ever-increasing rate. NASA Living With a Star and the UCAR Visiting Scientist Progams sponsor the annual Heliophysics Summer Schools to build the next generation of scientists in this emerging field. The highly successful series of the summer schools (commencing 2007) trains a select group of graduate students, postdoctoral fellows and university faculty to learn and develop the science of heliophysics as a broad, coherent discipline that reaches in space from the Earth's troposphere to the depths of the Sun, and in time from the formation of the solar system to the distant future. Now in its tenth year, the School has resulted in the publication of five Heliophysics textbooks now being used at universities worldwide. The books provide a foundational reference for researchers in space physics, solar physics, aeronomy, space weather, planetary science and climate science, astrophysics, plasma physics,. In parallel, the School also developed the complementary materials that support teaching of heliophysics at both graduate and undergraduate levels. The Jack Eddy Postdoctoral Fellowship Program matches newly graduated postdoctorates with hosting mentors for the purpose of training the next generation researchers needed in heliophysics. The fellowships are for two years, and any U.S. university or research lab may apply to host a fellow. Two major topics of focus for the program are the science of space weather and of the Sun-climate connection. Since the goal of this fellowship program is to train Sun-Earth system researchers, preference is also given to research projects that cross the traditional heliophysics subdomains of the Sun, heliosphere, magnetosphere, and ionosphere/upper atmosphere, as well as Sun-climate investigations. Host mentors plan critical roles. Potential hosts may enter information about their research on a central database.

Heliophysics as a Scientific Discipline

NASA Astrophysics Data System (ADS)

Greb, K.; Austin, M.; Guhathakurta, M.

2016-12-01

Heliophysics is a developing scientific discipline integrating studies of the Sun's variability, the surrounding heliosphere, and climate environments. Over the past few centuries our understanding of how the Sun drives space weather and climate on the Earth and other planets has advanced at an ever-increasing rate. NASA Living With a Star and the UCAR Visiting Scientist Progams sponsor the annual Heliophysics Summer Schools to build the next generation of scientists in this emerging field. The highly successful series of the summer schools (commencing 2007) trains a select group of graduate students, postdoctoral fellows and university faculty to learn and develop the science of heliophysics as a broad, coherent discipline that reaches in space from the Earth's troposphere to the depths of the Sun, and in time from the formation of the solar system to the distant future. Now in its tenth year, the School has resulted in the publication of five Heliophysics textbooks now being used at universities worldwide. The books provide a foundational reference for researchers in space physics, solar physics, aeronomy, space weather, planetary science and climate science, astrophysics, plasma physics,. In parallel, the School also developed the complementary materials that support teaching of heliophysics at both graduate and undergraduate levels. The Jack Eddy Postdoctoral Fellowship Program matches newly graduated postdoctorates with hosting mentors for the purpose of training the next generation researchers needed in heliophysics. The fellowships are for two years, and any U.S. university or research lab may apply to host a fellow. Two major topics of focus for the program are the science of space weather and of the Sun-climate connection. Since the goal of this fellowship program is to train Sun-Earth system researchers, preference is also given to research projects that cross the traditional heliophysics subdomains of the Sun, heliosphere, magnetosphere, and ionosphere/upper atmosphere, as well as Sun-climate investigations. Host mentors play critical roles. Potential hosts may enter information about their research on a central database.

Effects of the Positive Action program on achievement and discipline: two matched-control comparisons.

PubMed

Flay, B R; Allred, C G; Ordway, N

2001-06-01

This paper reports on the effectiveness of an integrated comprehensive school model for character development, problem behavior prevention, and academic achievement enhancement. The Positive Action program consists of a school curriculum, together with schoolwide climate, family, and community components. As evaluated here, the yearly K-6 curriculum consists of over 140 fifteen-to-twenty-minute lessons per year delivered in school classrooms on an almost daily basis. The program is based on theories of self-concept, learning, behavior, and school ecology. We use a matched control design and school-level achievement and disciplinary data to evaluate program effects on student performance and behavior in two separate school districts. The program improved achievement by 16% in one district and 52% in another, and reduced disciplinary referrals by 78% in one district and 85% in the other. We discuss implications of these replicated findings for the prevention of substance abuse and violence, the improvement of school performance, and the reform of American schools.

School Climate and Leadership: Levers for School Improvement Efforts

ERIC Educational Resources Information Center

Costa, Lois

2016-01-01

This qualitative study considers which aspects of school climate support or inhibit student achievement as each aspect relates to school leadership and school reform efforts. Due to the increased responsibility and accountability which schools face during these challenging times, school climate and the role of the school principal formed the basis…

Indoor environmental quality (IEQ) of school classrooms: Case study in Malaysia

NASA Astrophysics Data System (ADS)

Samad, Muna Hanim Abdul; Aziz, Zalena Abdul; Isa, Mohd Hafizal Mohd

2017-10-01

Thermal Comfort is one of the key criteria for occupants' comfort and productivity in a building. In schools, it is vital for a conduciveness for teaching and learning environment. Thermal comfort is dependent on air temperature, humidity, radiation, internal lighting, air movement, activities, clothing and climatic change and is part of the Indoor Environmental Quality (IEQ) components which have has significant effects on occupants. The main concern over energy and running cost has meant that most public schools in Malaysia are designed for natural ventilation and not air-conditioning. The building envelope plays a significant role in reducing the radiant heat and keeps the interior cooler than the outdoor temperature for acceptable thermal comfort level. The requirement of Industrial Building System (IBS) as the envelope system for school building in Malaysia could affect the role of envelope as a climate moderator. This paper is based on a research conducted on two schools in Malaysia of varied construction materials as the building envelopes to ascertain the thermal comfort level of the classrooms. Elements of IEQ such as air temperature, air movement, daylighting and noise level were taken of various classrooms to fulfill the required objectives of determining the level of quality. The data collected and analysed from the study shows that in terms of air temperature which range from 28°C to 34.5°C, the schools do not achieve the recommended comfort level for tropical climate. As for daylighting element, results also show that some classrooms suffered with too much glare whilst others had insufficient daylighting. The findings also show the unsatisfactory level of air movement in the classrooms as well as an unacceptable noise level exceeding the allowable threshold. This research also concluded that the use of materials and orientation in the school design are the major determinant factors towards good IEQ levels in school buildings.

Perceived school climate, academic well-being and school-aged children's self-rated health: a mediator analysis.

PubMed

Rathmann, Katharina; Herke, Max; Heilmann, Kristina; Kinnunen, Jaana M; Rimpelä, Arja; Hurrelmann, Klaus; Richter, Matthias

2018-06-11

Schools are crucial settings for young people's development. Rare studies have examined the impact of perceived school-climate and academic well-being on young people's self-rated health in joint analyses. This study focuses on the role of perceived school-climate and academic well-being for young people's self-rated health and examines whether school climate is mediated by indicators of academic well-being. Data were obtained from the German National Educational Panel Study, including seventh grade students (n = 6838) aged 11-12, nested in 710 classes within 277 schools. Indicators of school climate (teacher control, demands, autonomy, interaction, goal setting and orientation, teaching quality) and academic well-being (satisfaction with school, helplessness in major school subjects) were reported from students. Multilevel modelling was used to analyze the relative importance of perceived school-climate and academic well-being on school-aged children's self-rated health. Results showed that academic well-being is strongly related to self-rated health. The better students perceive their academic well-being, the lower the likelihood of poor self-rated health. In contrast, indicators of perceived school climate are only indirectly related to self-rated health, mediated by academic well-being or are not at all associated with self-rated health. This study suggests that school climate is important for academic well-being but not as important for students' self-rated health as academic well-being. Health promotion initiatives in schools have to ensure that school climate serves to enhance students' academic well-being to avoid health problems in the long-run.

The Development of a New Comprehensive Measure of School Climate and Associations with School Leadership

ERIC Educational Resources Information Center

Maier, Christopher J.

2017-01-01

A positive school climate has been related to increase in student achievement, teacher satisfaction, and teacher retention. One of the most influential aspects of developing a positive school climate hinges on principal leadership style. The Development of a New Comprehensive Measure of School Climate assesses six key areas related to school…

The Impact of Leadership Involvement in Enhancing High School Climate and Reducing Bullying: An Exploratory Study

ERIC Educational Resources Information Center

Bosworth, Kris; Garcia, Rafael; Judkins, Maryann; Saliba, Mark

2018-01-01

Bullying in secondary schools is a serious concern for educators and parents. The relationship between bullying and school climate has been identified and strategies to improve school climate are available. The importance of leadership in shaping school climate has been well documented. This exploratory study explores the role of leadership in…

School Climate Improvement Action Guide for Community Partners. School Climate Improvement Resource Package

ERIC Educational Resources Information Center

National Center on Safe Supportive Learning Environments, 2017

2017-01-01

Improving school climate takes time and commitment from a variety of people in a variety of roles. This document outlines how community partners can support school climate improvements. Organizations and individuals can partner with schools in many different ways--from delivering or coordinating direct services to students and families inside or…

Multilevel Factor Structure and Concurrent Validity of the Teacher Version of the Authoritative School Climate Survey

ERIC Educational Resources Information Center

Huang, Francis L.; Cornell, Dewey G.; Konold, Timothy; Meyer, Joseph P.; Lacey, Anna; Nekvasil, Erin K.; Heilbrun, Anna; Shukla, Kathan D.

2015-01-01

Background: School climate is well recognized as an important influence on student behavior and adjustment to school, but there is a need for theory-guided measures that make use of teacher perspectives. Authoritative school climate theory hypothesizes that a positive school climate is characterized by high levels of disciplinary structure and…

Bullying victimization and student engagement in elementary, middle, and high schools: Moderating role of school climate.

PubMed

Yang, Chunyan; Sharkey, Jill D; Reed, Lauren A; Chen, Chun; Dowdy, Erin

2018-03-01

Bullying is the most common form of school violence and is associated with a range of negative outcomes, including traumatic responses. This study used hierarchical linear modeling to examine the multilevel moderating effects of school climate and school level (i.e., elementary, middle, and high schools) on the association between bullying victimization and student engagement. Participants included 25,896 students in 4th to 12th grades from 114 schools. Results indicated that, after controlling for student and school demographic factors, positive school climate was associated with higher behavioral/cognitive and emotional engagement of students across all grades. This highlights the critical and fundamental role of positive school climate in bullying prevention and intervention, among students across all grade levels, including those with frequent bullying victimization experience. Results also showed that negative associations between student-level bullying victimization and engagement were intensified in more positive school climates. This finding suggests that, in comparison with students in schools with less positive school climates, the engagement of bullying victims in schools with a more positive school climate might be more negatively influenced by their victimization experience. Additionally, the relation between student-level bullying victimization and emotional engagement was significantly different across middle and high schools. (PsycINFO Database Record (c) 2018 APA, all rights reserved).

Global Systems Science and Hands-On Universe Course Materials for High School

NASA Astrophysics Data System (ADS)

Gould, A.

2011-09-01

The University of California Berkeley's Lawrence Hall of Science has a project called Global Systems Science (GSS). GSS produced a set of course materials for high school science education that includes reading materials, investigations, and software for analyzing satellite images of Earth focusing on Earth systems as well as societal issues that require interdisciplinary science for full understanding. The software has general application in analysis of any digital images for a variety of purposes. NSF and NASA funding have contributed to the development of GSS. The current NASA-funded project of GSS is Lifelines for High School Climate Change Education (LHSCCE), which aims to establish professional learning communities (PLCs) to share curriculum resources and best practices for teaching about climate change in grades 9-12. The project explores ideal ways for teachers to meet either in-person or using simple yet effective distance-communication techniques (tele-meetings), depending on local preferences. Skills promoted include: how to set up a website to share resources; initiating tele-meetings with any available mechanism (webinars, Skype, telecons, moodles, social network tools, etc.); and easy ways of documenting and archiving presentations made at meetings. Twenty teacher leaders are forming the PLCs in their regions or districts. This is a national effort in which teachers share ideas, strategies, and resources aimed at making science education relevant to societal issues, improve students' understanding of climate change issues, and contribute to possible solutions. Although the binding theme is climate change, the application is to a wide variety of courses: Earth science, environmental science, biology, physics, and chemistry. Moreover, the PLCs formed can last as long as the members find it useful and can deal with any topics of interest, even if they are only distantly related to climate change.

Changing teaching techniques and adapting new technologies to improve student learning in an introductory meteorology and climate course

NASA Astrophysics Data System (ADS)

Cutrim, E. M.; Rudge, D.; Kits, K.; Mitchell, J.; Nogueira, R.

2006-06-01

Responding to the call for reform in science education, changes were made in an introductory meteorology and climate course offered at a large public university. These changes were a part of a larger project aimed at deepening and extending a program of science content courses that model effective teaching strategies for prospective middle school science teachers. Therefore, revisions were made to address misconceptions about meteorological phenomena, foster deeper understanding of key concepts, encourage engagement with the text, and promote inquiry-based learning. Techniques introduced include: use of a flash cards, student reflection questionnaires, writing assignments, and interactive discussions on weather and forecast data using computer technology such as Integrated Data Viewer (IDV). The revision process is described in a case study format. Preliminary results (self-reflection by the instructor, surveys of student opinion, and measurements of student achievement), suggest student learning has been positively influenced. This study is supported by three grants: NSF grant No. 0202923, the Unidata Equipment Award, and the Lucia Harrison Endowment Fund.

Improving Climate Change Communication Skills through Community Outreach

NASA Astrophysics Data System (ADS)

Hanrahan, J.

2015-12-01

While many undergraduate Atmospheric Science departments are expanding their curriculums to focus on the science of climate change, often overlooked is the need to educate students about how this topic can be effectively communicated to others. It has become increasingly difficult for young scientists to comfortably discuss this polarizing topic with people outside of the classroom. To address this, Atmospheric Science faculty at Lyndon State College are providing undergraduate students the opportunity to practice this important skill by reaching out to the local community. Over the past year, students have been meeting regularly to discuss climate change and its impacts, and to present this information to the general public at local schools and organizations. The group was organized with the primary goal of teaching undergraduate students about effective ways to communicate basic climate science to nonscientists, but to also improve public understanding of anthropogenic climate change while starting a conversation among young people in the community. We will identify lessons learned after one year, discuss effective strategies, and summarize student feedback.

Traditional Ecological Knowledge of Stem Concepts in Informal and Place-Based Western Educational Systems: Lessons from the North Slope, Alaska

NASA Astrophysics Data System (ADS)

Nicholas-Figueroa, Linda

Upon regaining the right to direct education at the local level, the North Slope Borough (NSB) of Alaska incorporated Inupiat educational philosophies into the educational system. The NSB in partnership with the University of Alaska Fairbanks established Ilisagvik College, the only tribal college in Alaska. Ilisagvik College seeks to broaden science, technology, engineering, and mathematical education on the North Slope. Incorporation of place-based and informal lessons with traditional ecological knowledge engages students in education. Ilisagvik hosted a 2-week climate change program from 2012 - 2015 for high school and middle school students that examined climate science and the effects of a warming climate on the local environment from a multitude of perspectives from scientists, Inupiat Elders, and instructor-led field trips. Pre-assessments and post-assessments using the Student Assessment of Learning Gains tool measured students' interests and conceptual understanding. Students developed and enhanced their understanding of science concepts and, at the end of the program, could articulate the impact of climatic changes on their local environment. Similarly, methods to incorporate Indigenous knowledge into research practices have been achieved, such as incorporating field trips and discussion with Elders on the importance of animal migration, whale feeding patterns, and the significance of sea-ice conditions, which are important community concerns.

School environments and obesity: The mediating role of personal stress.

PubMed

Milam, Adam J; Jones, Chandria D; Debnam, Katrina J; Bradshaw, Catherine P

2017-01-01

Youth spend a large amount of time in the school environment. Given the multiple influences of teachers, peers, and food and physical activity options, youth are likely to experience stressors that can influence their weight. This study examines the association between school climate and weight status. Students ( n = 28,582; 58 schools) completed an online, anonymous school climate survey as part of the Maryland Safe and Supportive Schools Project. Multilevel structural equation modeling was used to explore the association between school climate, personal stress, and obesity. Analyses were stratified by gender. At the individual level, poor school climate (bullying, physical safety, and lack of whole-school connectedness) was associated with an increased likelihood of being overweight among females ( β =.115, p = .019) but not males ( β = .138; p =.244), after controlling for age, race, and physical activity. There was no association between school climate at the school level and being overweight among males or females. A second model included stress as a potential mediator; stress attenuated the relationship between poor school-related climate and being overweight ( β = .039; p = .048) among females. Findings suggest that stress related to school climate can play a role in the health and weight status of youth.

Le Climat d'Apprentissage; Analyse Conceptuelle=Learning Climate: A Conceptual Analysis.

ERIC Educational Resources Information Center

Michaud, Pierre; And Others

1989-01-01

Analyzes and defines the concept of "learning climate." Discusses the conceptual models of Biddle and Brookover. Considers the use of observation techniques and surveys to measure learning climate. Reviews research on the relationship between learning climate and the attainment of course and institutional objectives. (DMM)

The School Climate-Student Achievement Connection: If We Want Achievement Gains, We Need to Begin by Improving the Climate

ERIC Educational Resources Information Center

Shindler, John; Jones, Albert; Williams, A. Dee; Taylor, Clint; Cardenas, Hermenia

2016-01-01

This study examined the relationship between school climate and student achievement ratings in urban school districts in five states (N = 230). Many educators view school climate and student achievement as separate considerations. However the results of this study suggest that climate and student achievement were highly related. In fact, the…

Relationships Among Student, Staff, and Administrative Measures of School Climate and Student Health and Academic Outcomes.

PubMed

Gase, Lauren N; Gomez, Louis M; Kuo, Tony; Glenn, Beth A; Inkelas, Moira; Ponce, Ninez A

2017-05-01

School climate is an integral part of a comprehensive approach to improving the well-being of students; however, little is known about the relationships between its different domains and measures. We examined the relationships between student, staff, and administrative measures of school climate to understand the extent to which they were related to each other and student outcomes. The sample included 33,572 secondary school students from 121 schools in Los Angeles County during the 2014-2015 academic year. A multilevel regression model was constructed to examine the association between the domains and measures of school climate and 5 outcomes of student well-being: depressive symptoms or suicidal ideation, tobacco use, alcohol use, marijuana use, and grades. Student, staff, and administrative measures of school climate were weakly correlated. Strong associations were found between student outcomes and student reports of engagement and safety, while school staff reports and administrative measures of school climate showed limited associations with student outcomes. As schools seek to measure and implement interventions aimed at improving school climate, consideration should be given to grounding these efforts in a multidimensional conceptualization of climate that values student perspectives and includes elements of both engagement and safety. © 2017, American School Health Association.

Testing the Causal Links between School Climate, School Violence, and School Academic Performance: A Cross-Lagged Panel Autoregressive Model

ERIC Educational Resources Information Center

Benbenishty, Rami; Astor, Ron Avi; Roziner, Ilan; Wrabel, Stephani L.

2016-01-01

The present study explores the causal link between school climate, school violence, and a school's general academic performance over time using a school-level, cross-lagged panel autoregressive modeling design. We hypothesized that reductions in school violence and climate improvement would lead to schools' overall improved academic performance.…

Teachers Learning to Teach Science by Doing Science at the University of Arizona

NASA Astrophysics Data System (ADS)

Mangin, K. L.; Thompson, R. M.; Wilch, M.

2006-12-01

Many departments across the College of Science at the University of Arizona provide the opportunity for teachers to do original scientific research. These programs either provide skills and curriculum that can be translated into the classroom or include direct participation by K-12 students with their teachers. This paper introduces three of the many unique programs that UA offers for teacher professional development. The College of Science offers a teacher professional development course to accompany a public lecture series that runs each semester on a different topic of current social and scientific interest. During the Spring 2006 semester, the series subject was evolution, with attendance at each lecture running in excess of 600. This fall, the topic is climate change. In addition to attending lectures and participating in group discussions with the speakers, the teachers conduct research into regional climate change using the Western Regional Climate Center's publicly available, web-hosted climate data. The teachers brainstorm about possible influences on the data other than anthropogenic alteration of atmospheric composition, and control for these influences in their experimental design as best they can. Such influences might include urbanization, instrumental change, and natural variability. The College of Science is developing collaborations with community partners, including a local high school science magnet and a high school in the Galapagos Islands. Among several programs created in partnership with Tucson High School, Science and Nature in Tandem for Youth (SANITY) brings science teachers and students to the Southwest Research Station to conduct ecological research of their own design including the investigation of the effects of drought and other physical factors on the biosphere. The Southwest Research Station is located in the Chiricahua Mountains, one of the so-called "sky islands" and a crucial cradle of biodiversity vulnerable to the effects of climate change and other human impacts. Each year, teachers from across the USA spend a month in the Galapagos Islands working with a local high school and doing their own research projects. This year the high school chose to study the effects of sewage dumped into the bay on plankton. Challenges related to working in a developing nation are discussed.

Positive School Climate Is Associated With Lower Body Mass Index Percentile Among Urban Preadolescents

PubMed Central

Gilstad-Hayden, Kathryn; Carroll-Scott, Amy; Rosenthal, Lisa; Peters, Susan M.; McCaslin, Catherine; Ickovics, Jeannette R.

2015-01-01

BACKGROUND Schools are an important environmental context in children’s lives and are part of the complex web of factors that contribute to childhood obesity. Increasingly, attention has been placed on the importance of school climate (connectedness, academic standards, engagement, and student autonomy) as 1 domain of school environment beyond health policies and education that may have implications for student health outcomes. The purpose of this study is to examine the association of school climate with body mass index (BMI) among urban preadolescents. METHODS Health surveys and physical measures were collected among fifth- and sixth-grade students from 12 randomly selected public schools in a small New England city. School climate surveys were completed district-wide by students and teachers. Hierarchical linear modeling was used to test the association between students’ BMI and schools’ climate scores. RESULTS After controlling for potentially confounding individual-level characteristics, a 1-unit increase in school climate score (indicating more positive climate) was associated with a 7-point decrease in students’ BMI percentile. CONCLUSIONS Positive school climate is associated with lower student BMI percentile. More research is needed to understand the mechanisms behind this relationship and to explore whether interventions promoting positive school climate can effectively prevent and/or reduce obesity. PMID:25040118

Impacts and Feedbacks in a Warming Arctic: Engaging Diverse Learners in Geoscience Education and Research

NASA Astrophysics Data System (ADS)

Sparrow, Elena; Spellman, Katie; Fabbri, Cindy; Verbyla, David; Yoshikawa, Kenji; Fochesatto, Gilberto; Comiso, Josefino; Chase, Malinda; Jones, Debra; Bacsujlaky, Mara

2016-04-01

A warming climate has changed the timing of the seasons in the Arctic and elsewhere. Our project will engage learners in the investigation of the shifting seasons' impacts on vegetation, soils, hydrology, infrastructure, livelihoods, and communities and the feedbacks between these factors. Primary and secondary students, pre- and in-service teachers and lifelong learners will use historical and current National Aeronautics and Space Agency (NASA) data, NASA experts, and the Global Learning and Observations to Benefit the Environment (GLOBE) methods to help uncover the surprises from and consequences of earlier springs, warmer and later falls, changing ice cover, later freeze-up and earlier break-up of rivers and lakes. Key objectives are to: 1) provide new opportunities to bring NASA assets to learners of all ages, 2) enhance Science, Technology, Engineering and Mathematics (STEM) learning and understanding of the Earth system, 3) improve STEM instruction, 4) enhance STEM experience of undergraduate students, and 5) increase participation of groups historically underrepresented in STEM such as Native Americans who are also more vulnerable to climate change impacts. Incorporating issues of local importance with national and global implications, into educational experiences will make learning relevant which may be helpful to communities in developing strategies for adaptation. We intend to use NASA assets (e.g. MODIS snow data, NDVI, Cloudsat, and SMAP data), GLOBE methodologies (classic and new ground observations and measurements) to develop and deliver curriculum materials including culturally responsive learning activities, course/modules, professional development workshops, and educational experiences using best practices in pedagogy such as constructivism, inquiry- and place- based, interdisciplinary and systems approach, and cutting-edge technology to reach a variety of target audiences, while improving STEM education. Audiences include K-12 teachers and their students, home-schooled students, pre-service teachers, undergraduate students, and community members as citizen scientists. Those served will include groups historically under-represented in STEM fields (e.g. Alaska Natives). Learners will be engaged using face-to-face, online, and mobile technologies. Formative and summative assessments as well as outcome-based metrics will be developed to evaluate the success of program efforts. To accomplish objectives and leverage efforts, this project brings together subject matter experts, educational professionals, and practitioners in a teaming arrangement as well as leveraged partnerships that include the GLOBE Program, NASA Langley Education Program, NASA Goddard Space Flight Center, International Arctic Research Institute, School of Education, School of Natural Resources and Extension, Geophysical Institute, Institute of Arctic Biology, University of Alaska Fairbanks, Association of Interior Native Educators, Kenaitze Tribe Environmental Education Program, Urban and Rural School Districts, 4-H Program, Goldstream Group, Inc., National Science Foundation (NSF) Alaska Experimental Program to Stimulate Competitive Research, NSF Bonanza Creek Long Term Ecological Research and the NSF Polar Learning and Responding Climate Change Education Partnership.

School Climate and Academic Achievement in Suburban Schools

ERIC Educational Resources Information Center

Sulak, Tracey N.

2016-01-01

School climate research has indicated a relationship between the climate of a school and academic achievement. The majority of explanatory models have been developed in urban schools with less attention given to suburban schools. Due to the process of formation of suburban schools, there is a likelihood these campuses differ from the traditional…

Advocating for Safe Schools, Positive School Climate, and Comprehensive Mental Health Services

ERIC Educational Resources Information Center

Cowan, Katherine C.; Vaillancourt, Kelly

2013-01-01

The tragedy at Sandy Hook Elementary School, Newtown, CT (USA) has brought the conversation about how to reduce violence, make schools safer, improve school climate, and increase access to mental health services to the forefront of the national conversation. Advocating for comprehensive initiatives to address school safety, school climate, and…

School climate, family structure, and academic achievement: a study of moderation effects.

PubMed

O'Malley, Meagan; Voight, Adam; Renshaw, Tyler L; Eklund, Katie

2015-03-01

School climate has been lauded for its relationship to a host of desirable academic, behavioral, and social-emotional outcomes for youth. The present study tested the hypothesis that school climate counteracts youths' home-school risk by examining the moderating effects of students' school climate perceptions on the relationship between family structure (i.e., two-parent, one-parent, foster-care, and homeless households), and academic performance (i.e., self-reported [grade point average] GPA). The present sample consisted of 902 California public high schools, including responses from over 490,000 students in Grades 9 and 11. Results indicated that, regardless of family structure, students with more positive school climate perceptions self-reported higher GPAs. Youths with two-parent, one-parent, and homeless family structures displayed stepwise, linear improvements in self-reported GPA as perceptions of climate improved. Foster-care students' positive school climate perceptions had a weaker effect on their self-reported GPA compared with students living in other family structures. A unique curvilinear trend was found for homeless students, as the relationship between their school climate perceptions and self-reported GPA was stronger at lower levels. Overall, the moderation effect of positive school climate perceptions on self-reported GPA was strongest for homeless youth and youth from one-parent homes, suggesting that school climate has a protective effect for students living in these family structures. A protective effect was not found for youth in foster-care. Implications for research and practice are discussed.

December 2012 Policy Update: School Climate and Bully Prevention Trends State-by-State Assessment. School Climate Brief, Number 6

ERIC Educational Resources Information Center

Bellizio, Dan

2012-01-01

This December 2012 Brief updates NSCC's 2011 report "State Policies on School Climate and Bully Prevention Efforts: Challenges and Opportunities for Deepening State Policy Support for Safe and Civil School"s (www.schoolclimate.org/climate/papers-briefs.php). This Brief provides a summary of State level: (1) anti-bullying legislation; (2)…

Tracking Middle Grades Climate Data to Inform School Change. REL West Research Digest

ERIC Educational Resources Information Center

Regional Educational Laboratory West, 2015

2015-01-01

A growing body of research shows that positive school climate is a key lever for students' academic and social development and success. This research digest shows how an alliance of California schools and districts, school climate experts, and state education agency personnel have teamed up to use school climate data to drive a continuous cycle of…

Perceived School Climate and Chinese Adolescents' Suicidal Ideation and Suicide Attempts: The Mediating Role of Sleep Quality.

PubMed

Li, Dongping; Bao, Zhenzhou; Li, Xian; Wang, Yanhui

2016-02-01

School factors play important roles in adolescent suicide. However, little is known about how school climate is associated with adolescent suicide. This study examined the relationship between perceived school climate and adolescent suicidal ideation and suicide attempts, and whether these relations were explained by adolescent sleep quality. A total of 1529 Chinese adolescents (mean age = 14.74 years; 52% boys) participated in the study. They provided self-report data on control variables, perceived school climate, sleep quality, suicidal ideation, and suicide attempts. After controlling for sex, age, family structure, socioeconomic status, and parent-adolescent attachment, we found that perceived school climate negatively predicted adolescent suicidal ideation (odds ratio [OR] = 0.66, p < .001) and suicide attempts (OR = 0.72, p < .001). Moreover, perceived school climate positively predicated adolescent sleep quality (β = 0.13, p < .001), which in turn, negatively predicted adolescent suicidal ideation (OR = 0.75, p < .001) and suicide attempts (OR = 0.76, p < .001). These findings, although cross-sectional, indicate that perceived school climate plays an important role in adolescent suicidality. Moreover, the relation between perceived school climate and adolescent suicidality was largely mediated by adolescent sleep quality. © 2016, American School Health Association.

The Iowa K-12 Climate Science Education Initiative: a comprehensive approach to meeting in-service teachers' stated needs for teaching climate literacy with NGSS

NASA Astrophysics Data System (ADS)

Stanier, C. O.; Spak, S.; Neal, T. A.; Herder, S.; Malek, A.; Miller, Z.

2017-12-01

The Iowa Board of Education voted unanimously in 2015 to adopt NGSS performance standards. The CGRER - College of Education Iowa K-12 Climate Science Education Initiative was established in 2016 to work directly with Iowa inservice teachers to provide what teachers need most to teach climate literacy and climate science content through investigational learning aligned with NGSS. Here we present teachers' requests for teaching climate with NGSS, and an approach to provide resources for place-based authentic inquiry on climate, developed, tested, and refined in partnership with inservice and preservice teachers. A survey of inservice middle school and high school science teachers was conducted at the 2016 Iowa Council of Teachers of Mathematics/Iowa Academy of Sciences - Iowa Science Teaching Section Fall Conference and online in fall 2016. Participants (n=383) were asked about their prior experience and education, the resources they use and need, their level of comfort in teaching climate science, perceived barriers, and how they address potential controversy. Teachers indicated preference for professional development on climate content and complete curricula packaged with lessons and interactive models aligned to Iowa standards, as well as training on instructional strategies to enhance students' ability to interpret scientific evidence. We identify trends in responses by teaching experience, climate content knowledge and its source, grade level, and urban and rural districts. Less than 20% of respondents reported controversy or negativity in teaching climate to date, and a majority were comfortable teaching climate science and climate change, with equal confidence in teaching climate and other STEM content through investigational activities. We present an approach and materials to meet these stated needs, created and tested in collaboration with Iowa teachers. We combine professional development and modular curricula with bundled standards, concepts, models, data, field activities, and sequences of individual and group investigational and student-driven inquiry prompts on climate science, climate change, and climate impacts. We identify key resource availability needed to teach place-based climate literacy aligned with NGSS as a standalone curriculum and through local impacts.

Community in the Classroom: An Approach to Curriculum and Instruction as a Means for the Development of Student Personal Engagement in a High School Classroom

ERIC Educational Resources Information Center

Jones, Tammy

2012-01-01

NCLB has created a climate where teachers feel increasingly pressured to ensure their students pass the test, with the result that they allocate less time for purposeful and authentic learning experiences (Kohn, 2004). Thus, rote memorization is favored over inquiry. Teachers must aim to create a classroom environment that recognizes and values…

Leaving School — learning at SEA: Regular high school education alongside polar research, not only during IPY

NASA Astrophysics Data System (ADS)

Gatti, S.

2006-12-01

Against the background of unsatisfactory results from the international OECD study PISA (Program for International Student Assessment), Germany is facing a period of intense school reforms. Looking back at a tradition of school culture with too few changes during the last century, quick and radical renewal of the school system is rather unlikely. Furthermore students are increasingly turning away from natural sciences. The AWI aims at providing impulses for major changes in the schooling system and is offering solid science education not only for university students but also for a much younger audience. All efforts towards this goal are interconnected within the project SEA (Science & Education @ the AWI). Fife years ago the AWI started HIGHSEA (High school of SEA). Each year 22 high school students (grade 11) are admitted to HIGHSEA spending their last three years of school not at school but at the institute. Four subjects (biology as a major, chemistry, math and English as accessory subjects) are combined and taught fully integrated. Students leave their schools for two days each week to study, work and explore all necessary topics at the AWI. All of the curricular necessities of the four subjects are being met. After rearrangement of the temporal sequencing conceptual formulation of four major questions around AWI-topics was possible. Students are taught by teachers of the cooperating schools as well as by scientists of the AWI. Close links and intense cooperation between all three groups are the basis of fundamental changes in teaching and learning climate. For each group of students we organize a short research expedition: in August 2005 we worked in the high Arctic, in January and February 2006 we performed measurements at two eastern Atlantic seamounts. Even if the amount of data coming from these expeditions is comparatively small they still contribute to ongoing research projects of the oceanographic department. The first two groups of students finished their final exams — with outstanding results. External evaluation of HIGHSEA performed by the University Duisburg-Essen presents spectacular results of HIGHSEA students when compared with a control group. By exploring and establishing new ways of teaching and learning we are contributing to the ongoing discussion about the renewal of the German school system. Drawing on our rich experience in cooperation with local schools we are offering an international role-play game focusing around the sustainable use of Polar regions in times of global climate change. After regional, national and international runs of the game the activities will culminate during an international "World Youth Polar Conference" (WYPC) late in 2007. We offer the unique opportunity for researchers in the field of polar research to actively contribute to a major outreach activity during IPY and participate in our role-play as national ambassadors.

The Critical Role of School Climate in Effective Bullying Prevention

ERIC Educational Resources Information Center

Wang, Cixin; Berry, Brandi; Swearer, Susan M.

2013-01-01

Research has shown a negative association between positive school climate and bullying behavior. This article reviews research on school climate and bullying behavior and proposes that an unhealthy and unsupportive school climate (e.g., negative relationship between teachers and students, positive attitudes towards bullying) provides a social…

School Climate Reports from Norwegian Teachers: A Methodological and Substantive Study.

ERIC Educational Resources Information Center

Kallestad, Jan Helge; Olweus, Dan; Alsaker, Francoise

1998-01-01

Explores methodological and substantive issues relating to school climate, using a dataset derived from 42 Norwegian schools at two points of time and a standard definition of organizational climate. Identifies and analyzes four school-climate dimensions. Three dimensions (collegial communication, orientation to change, and teacher influence over…

Using Rasch Measurement To Evaluate the Organizational Climate Index.

ERIC Educational Resources Information Center

Borkan, Bengu; Capa, Yesim; Figueiredo, Claudia; Loadman, William E.

School climate has been acknowledged as a construct with impact on important aspects of educational outcomes, such as student achievement, school effectiveness, and school completion. The Organizational Climate Index was an instrument developed to measure school climate (W.Hoy, 2001). This study evaluated this instrument by using Rasch…

Relationships between Student, Staff, and Administrative Measures of School Climate and Student Health and Academic Outcomes

PubMed Central

Gase, Lauren Nichol; Gomez, Louis M.; Kuo, Tony; Glenn, Beth A.; Inkelas, Moira; Ponce, Ninez A.

2018-01-01

BACKGROUND School climate is an integral part of a comprehensive approach to improving the wellbeing of students; however, little is known about the relationships between its different domains and measures. This study examined the relationships between student, staff, and administrative measures of school climate in order to understand the extent to which they were related to each other and student outcomes. METHODS The sample included 33,572 secondary school students from 121 schools in Los Angeles County during the 2014–2015 academic year. A multilevel regression model was constructed to examine the association between the domains and measures of school climate and five outcomes of student wellbeing: depressive symptoms or suicidal ideation, tobacco use, alcohol use, marijuana use, and grades. RESULTS Student, staff, and administrative measures of school climate were weakly correlated. Strong associations were found between student outcomes and student reports of engagement and safety, while school staff reports and administrative measures of school climate showed limited associations with student outcomes. CONCLUSIONS As schools seek to measure and implement interventions aimed at improving school climate, consideration should be given to grounding these efforts in a multi-dimensional conceptualization of climate that values student perspectives and includes elements of both engagement and safety. PMID:28382671

Student drug testing and positive school climates: testing the relation between two school characteristics and drug use behavior in a longitudinal study.

PubMed

Sznitman, Sharon R; Romer, Daniel

2014-01-01

Fostering positive school climates and student drug testing have been separately proposed as strategies to reduce student drug use in high schools. To assess the promise of these strategies, the present research examined whether positive school climates and/or student drug testing successfully predicted changes in youth substance use over a 1-year follow-up. Two waves of panel data from a sample of 361 high school students, assessed 1 year apart, were analyzed. Changes in reported initiation and escalation in frequency of alcohol, cigarette, and marijuana use as a function of perceived student drug testing and positive school climates were analyzed, while we held constant prior substance use. Perceived student drug testing was not associated with changes in substance use, whereas perceived positive school climates were associated with a reduction in cigarette and marijuana initiation and a reduction in escalation of frequency of cigarette use at 1-year follow-up. However, perceived positive school climates were not associated with a reduction in alcohol use. Student drug testing appears to be less associated with substance use than positive school climates. Nevertheless, even favorable school climates may not be able to influence the use of alcohol, which appears to be quite normative in this age group.

Outcomes of a National Environmental Edutainment Program in High Schools

NASA Astrophysics Data System (ADS)

Lappe, M. D.

2012-12-01

We present results of the first longitudinal evaluation of a nation-wide environmental edutainment program. There has recently been rapid growth in curricula on the environment and climate change, yet few reach large and diverse audiences, and fewer still are evaluated. These results are from high schools participating in the Alliance for Climate Education (ACE) program. ACE is a 3 year-old program that has reached 1.2 million students with an edutainment presentation incorporating music, multi-media, animation, and documentary footage (www.acespace.org). A projected 850 schools across 23 states will see the presentation this year; 6% of schools (3 classes each) are randomly selected to be evaluated. The data described here were collected in Fall 2011 from 1,270 students in 21 schools; the full evaluation will be complete in May 2012. The sample is ethnically and socio-economically diverse — 29% are white, and 46% receive free/reduced lunches (a proxy for socio-economic status). Outcome measures included a test of climate knowledge and intentions to take (and to ask others to take) climate-related actions. The analyses examined direct effects of the ACE program on climate knowledge and intentions, as well as the moderating effects of student gender and age on learning. Before the ACE presentation, boys had significantly higher knowledge scores than girls (54% vs. 48% correct, respectively, p < .001). Afterward, boys and girls both had significantly higher knowledge scores (64% and 63% correct, respectively) and no longer differed from each other in this respect. Before the presentation, girls expressed significantly greater intentions to take climate-related actions than did boys. Afterward, intentions increased significantly in both groups, but the gap between girls and boys remained. The gap-closing pattern was somewhat different for the moderating variable of age. Before the presentation, knowledge and intentions were significantly higher among older students (11th- and 12th-graders) than among younger students (9th- and 10th-graders). Afterward, knowledge and intentions increased significantly in both groups, but the gap between them remained for knowledge and closed for intentions. These promising early results demonstrate how a single well-designed edutaiment presentation can appeal broadly to students and advance environmental education on a large scale.

TEEN DATING VIOLENCE: THE INFLUENCE OF FRIENDSHIPS AND SCHOOL CONTEXT

PubMed Central

Giordano, Peggy C.; Kaufman, Angela; Manning, Wendy D.; Longmore, Monica A.

2015-01-01

Prior research has examined parental and peer influences on teen dating violence (TDV), but fewer studies have explored the role of broader social contexts. Using data from the Toledo Adolescent Relationships Study (TARS), the present research examines the effect of variations in school context on teen dating violence perpetration, while taking into account parental, peer, and demographic factors. Drawing on interview data from 955 adolescents across 32 different schools, results indicate that net of parents’ and friends’ use of violence, the normative climate of schools, specifically school-level teen dating violence, is a significant predictor of respondents’ own violence perpetration. School-level dating norms (non-exclusivity in relationships) also contribute indirectly to the odds of experiencing TDV. However, a more general measure of school-level violence toward friends is not strongly related to variations in TDV, suggesting the need to focus on domain-specific influences. Implications for theories emphasizing social learning processes and for TDV prevention efforts are discussed. PMID:26412905

A Safe School Climate: A Systemic Approach and the School Counselor

ERIC Educational Resources Information Center

Hernandez, Thomas J.; Seem, Susan R.

2004-01-01

The climate of the school is central to the educational mission of a school (Anderson, 1998; Sherman et al., 1997; Jenkins, 1997; Lockwood, 1997). Anderson surveyed recent school safety research and found that altering a school's internal climate can have a significant positive effect on the feeling of safety in the school community. Gottfredson…

A Safer Place? LGBT Educators, School Climate, and Implications for Administrators

ERIC Educational Resources Information Center

Wright, Tiffany E.; Smith, Nancy J.

2015-01-01

Over an 8-year span, two survey studies were conducted to analyze LGBT -teachers' perceptions of their school climate and the impact of school leaders on that climate. This article presents nonparametric, descriptive, and qualitative results of the National Survey of Educators' Perceptions of School Climate 2011 compared with survey results from…

Authoritative School Climate, Number of Parents at Home, and Academic Achievement

ERIC Educational Resources Information Center

Huang, Francis L.; Eklund, Katie; Cornell, Dewey G.

2017-01-01

School climate is widely recognized as an important factor in promoting student academic achievement. The current study investigated the hypothesis that a demanding and supportive school climate, based on authoritative school climate theory, would serve as a protective factor for students living with 1 or no parents at home. Using a statewide…

Reference Manual on Making School Climate Improvements. School Climate Improvement Resource Package, 2017

ERIC Educational Resources Information Center

Yoder, N.; Darling-Churchill, K.; Colombi, G. D.; Ruddy, S.; Neiman, S.; Chagnon, E.; Mayo, R.

2017-01-01

This reference manual identifies five overarching sets of activities for improving school climate, with the goal of improving student outcomes (e.g., achievement, attendance, behaviors, and skills). These sets of activities help to initiate, implement, and sustain school climate improvements. For each activity set, the manual presents a clear…

Parent, Student, and Teacher Perceptions of School Climate at Suburban High

ERIC Educational Resources Information Center

Steiner, Cory J.

2009-01-01

School climate has a major impact on the school setting. In order to manage climate, it is essential to assess and understand the perceptions of teachers, students, and parents. This study identified the differences between teachers, students, and parents relative to their perceptions concerning school climate at Suburban High. The instrument…

Bullying and School Climate: Associations and Group Differences

ERIC Educational Resources Information Center

Biernbaum, Mark A.; Lotyczewski, Bohdan S.

2015-01-01

Bullying is an international public health problem that school climate could help prevent or promote. The present paper contains an analysis of an anonymous school climate survey, completed by 9554 students, in grades 5-12 (response rate 87%). Links in the literature between school climate and bullying lack specificity. We examined associations…

School Climate Improvement Action Guide for District Leaders. School Climate Improvement Resource Package

ERIC Educational Resources Information Center

National Center on Safe Supportive Learning Environments, 2017

2017-01-01

Improving school climate takes time and commitment from a variety of people in a variety of roles. This document outlines key action steps that district leaders--including superintendents, assistant superintendents, directors of student support services, or others--can take to support school climate improvements. Key action steps are provided for…

School environments and obesity: The mediating role of personal stress

PubMed Central

Milam, Adam J.; Jones, Chandria D.; Debnam, Katrina J.; Bradshaw, Catherine P.

2018-01-01

Background Youth spend a large amount of time in the school environment. Given the multiple influences of teachers, peers, and food and physical activity options, youth are likely to experience stressors that can influence their weight. This study examines the association between school climate and weight status. Method Students (n = 28,582; 58 schools) completed an online, anonymous school climate survey as part of the Maryland Safe and Supportive Schools Project. Multilevel structural equation modeling was used to explore the association between school climate, personal stress, and obesity. Analyses were stratified by gender. Results At the individual level, poor school climate (bullying, physical safety, and lack of whole-school connectedness) was associated with an increased likelihood of being overweight among females (β =.115, p = .019) but not males (β = .138; p =.244), after controlling for age, race, and physical activity. There was no association between school climate at the school level and being overweight among males or females. A second model included stress as a potential mediator; stress attenuated the relationship between poor school-related climate and being overweight (β = .039; p = .048) among females. Conclusion Findings suggest that stress related to school climate can play a role in the health and weight status of youth. PMID:29731524

Collaborating at a Regional Scale for Climate Literacy and Action

NASA Astrophysics Data System (ADS)

Carlton, C.; Shcherba, O.

2016-12-01

Since 2014, the Bay Area Climate Literacy Impact Collaborative (Bay-CLIC) has been the leading regional consortium dedicated to improving climate education and action. Collectively, Bay-CLIC members reach over 3 million individuals through their educational programming, serve counties all throughout the Bay Area, offer multiple methods of climate communication like place-based school programs and visitor centers, and serve audiences representing all age groups. With over 30 organizations ranging from park agencies to science museums and nonprofits promoting energy efficiency, Bay-CLIC is preparing to push out climate change messaging through a suite of projects. Currently, Bay-CLIC's work is centered on building connections between educators and local scientists and region-specific climate data, implementing joint campaigns to promote the social norming of sustainable behavior change, and developing a toolkit and trainings targeted to the needs of Bay Area environmental educators. Meeting the needs of this diverse group offers many opportunities for increasing impact, growing new, strategic partnerships, as well as overcoming a few challenges along the way. Come learn more about what we've accomplished so far and what new, exciting projects are coming down the pike.

School Climate and Restructuring for Low-Achieving Students.

ERIC Educational Resources Information Center

Smey-Richman, Barbara

Although analogous and vague definitions of school climate may help in determining whether low-achieving students are experiencing a more positive or negative school climate, more clarity is needed to render the climate construct more observable, measurable, and malleable. Tagiuri conceptualizes climate as the total environmental quality within an…

Youth Victimization: School Climate or Deviant Lifestyles?

ERIC Educational Resources Information Center

Zaykowski, Heather; Gunter, Whitney

2012-01-01

Despite much focus on school violence, there has been little research that explores the relationship between offending and victimization in various school climates. School climate theory suggests that the school's social system, culture, milieu, and ecological structure affect student outcomes including academic performance, delinquency, and more…

The Development and Validation of the Ethical Climate Index for Middle and High Schools.

ERIC Educational Resources Information Center

Schulte, Laura E.; Thompson, Franklin; Talbott, Jeanie; Luther, Ann; Garcia, Michelle; Blanchard, Shirley; Conway, Laraine; Mueller, Melanie

2002-01-01

Describes the School Ethical Climate Index (SECI), an instrument to measure the ethical climate of a school. The SECI could be used in school districts to assess areas for school improvement and thereby help reduce school disorder and violence. (Contains 4 tables and 39 references.) (Author/WFA)

The Relationship between Perceptions of School Climate and Student Achievement in Schools That Use Jostens' Renaissance Programs

ERIC Educational Resources Information Center

Coyne, Amy Yarborough

2012-01-01

Each school has unique attributes and a personality that gives the school a distinct climate. Psychological qualities that schools possess might include trust, collaboration, cooperation, teaching attributes, expectations, community involvement, and engagement (Rhodes, Camic, Milburn, & Lowe, 2009). Given information regarding school climate,…

Weather, Ocean and Climate topics in Geosciences, a new subject in Norwegian upper secondary education.

NASA Astrophysics Data System (ADS)

Hansen, P. J. K.

2009-09-01

Weather, Ocean and Climate topics in Geosciences, a new subject in Norwegian upper secondary education. Pål J. Kirkeby Hansen Faculty of Education and International Studies, Oslo University College (PalKirkeby.Hansen@lui.hio.no) The Knowledge Promotion is the latest curriculum reform in Norwegian compulsory and upper secondary education implemented autumn 2006. The greenhouse effect, the increased greenhouse effect and the importance of the ozone layer are topics in Natural Science upper secondary year 1, but only in Programme for General Studies, chosen by less than 50% of the students. In Geography the same cohort learns about ocean and air currents and their impact on climate, and in particular conditions influencing the weather and climate in Norway. If the students during year 1 get interested in further education in weather, ocean, climate or other geosciences topics, they could continue their education on Programme for Specialization in General Studies and choose the new science subject Geosciences at years 2 and/or 3. Among many geo-topics, Geosciences contains: climate, weather, water circulation, glaciers, atmospheric currents, weather forecasts, variations in the ozone layer, climatic development from the latest Ice Age, climate change - causes, effects and challenges, surface and deep-sea currents in oceans - causes and consequences for the climate, el Niño and la Niña - causes and influence on the climate. The students are supposed to make extensive investigations of different geosciences-parameters on their own in an outdoor field using different tools of geosciences, and on the Internet and other media, and present the results. One serious problem introducing a new subject in upper secondary education is who are able to teach this subject. We who developed the curriculum on mission of the education ministry, had first of all teachers with a degree in natural geography in mind. To empower other interested teachers, for instance with degree in meteorology, oceanography, hydrology, geology or physics, we have given extensive in-service training and should during 2009 be able to offer further education from ½ to 1 year. The school year 2007/2008 was the first with Geosciences as an optional choice. Ca.80 schools of max. 300 were able to give GX a 3 hours/week course, and/or G1 a 5 h/w course. In 2008/2009 it is 92 schools, and the advanced level 5 h/w course G2 has been introduced in many schools. G2 is open to all, but chosen almost only by students with G1. X1 students accomplished the ever first national written exam in G2 in May 2009. Geosciences were introduced as an idea from the education minister, not as result of pressure from the grassroot. She wanted students to have more science subjects to choose among in upper secondary education. She hoped that Geosciences should be a vehicle for introducing new groups of students to science, and perhaps bring them to science studies on higher levels later on. We, who developed the curriculum and are also responsible for the national exam in G2. We are of course very curious about both responses from the schools on the curriculum and the exam, and on the students' attitudes, work and learning outcome. That's why we are setting up a science education research programme from spring 2009. The further education and research programmes are made possible because of a sponsorship (EUR 1.2mill.) to our Geo-Programme 2008-2013 from the Norwegian oil and gas company StatoilHydro. 1 Unknown till May 2009

Multilevel multi-informant structure of the authoritative school climate survey.

PubMed

Konold, Timothy; Cornell, Dewey; Huang, Francis; Meyer, Patrick; Lacey, Anna; Nekvasil, Erin; Heilbrun, Anna; Shukla, Kathan

2014-09-01

The Authoritative School Climate Survey was designed to provide schools with a brief assessment of 2 key characteristics of school climate--disciplinary structure and student support--that are hypothesized to influence 2 important school climate outcomes--student engagement and prevalence of teasing and bullying in school. The factor structure of these 4 constructs was examined with exploratory and confirmatory factor analyses in a statewide sample of 39,364 students (Grades 7 and 8) attending 423 schools. Notably, the analyses used a multilevel structural approach to model the nesting of students in schools for purposes of evaluating factor structure, demonstrating convergent and concurrent validity and gauging the structural invariance of concurrent validity coefficients across gender. These findings provide schools with a core group of school climate measures guided by authoritative discipline theory. PsycINFO Database Record (c) 2014 APA, all rights reserved.

Organizational Learning Culture, Learning Transfer Climate and Perceived Innovation in Jordanian Organizations

ERIC Educational Resources Information Center

Bates, Reid; Khasawneh, Samer

2005-01-01

This paper examines the relationship between organizational learning culture, learning transfer climate, and organizational innovation. The objective was to test the ability of learning organization culture to account for variance in learning transfer climate and subsequent organizational innovation, and to examine the role of learning transfer…

Perceptions of Ethical Climate and Research Pressures in Different Faculties of a University: Cross-Sectional Study at the University of Split, Croatia.

PubMed

Malički, Mario; Katavić, Vedran; Marković, Domagoj; Marušić, Matko; Marušić, Ana

2017-10-25

We determined the prevailing ethical climate at three different schools of a single university, in order to explore possible differences in the ethical climate related to different research fields: the School of Electrical Engineering, Mechanical Engineering, and Naval Architecture; the School of Humanities and Social Sciences; and the School of Medicine. We used the Ethical Climate Questionnaire to survey the staff (teachers and administration) at the three schools, and used the research integrity and organizational climate (RIOC) survey for early-stage researchers at the three schools. The dominant ethical climate type perceived collectively at the three university schools (response rate 49%, n = 294) was Laws and professional codes, which is associated with the cosmopolitan level of analysis and the ethical construct of principle. Individually, the same climate predominated at the schools for engineering and humanities, but the School of Medicine had the Self-interest ethical climate, which is associated with the individual level of analysis and the egoism ethical construct. In the RIOC survey (response rate 85%; n = 70), early-stage researchers from the three university schools did not differ in their perceptions of the organizational research integrity climate, or in their perceived individual, group or organizational pressures. Our study is the first, to the best of our knowledge, to show differences in perceived ethical climate at a medical school compared to other schools at a university. Further studies are needed to explore the reasons for these differences and how they translate to organizational outcomes, such as job satisfaction, commitment to the institution and dysfunctional behaviour, including research misconduct.

School Climate and the National School Climate Standards

ERIC Educational Resources Information Center

Ciccone, Patricia A.; Freibeg, Jo Ann

2013-01-01

Increasingly, more and more areas of educational practice are being guided by sets of national standards for content, leadership, professional ethics, family-school partnerships, and school accreditation, among others. Similarly, there is growing appreciation that standards are needed to effectively measure improvement in school climate. The…

Using Organization Development To Improve School Climate. Report No. 17.

ERIC Educational Resources Information Center

Gottfredson, Gary D.; Gottfredson, Denise C.

This paper presents and illustrates some principles for organizational development approaches to improving school climate. It discusses a specific structure for facilitating school improvement entitled Program Development Evaluation, and it illustrates the use of school climate assessments for school diagnosis and the evaluation of improvement…

School Climate Improvement Action Guide for Instructional Staff. School Climate Improvement Resource Package

ERIC Educational Resources Information Center

National Center on Safe Supportive Learning Environments, 2017

2017-01-01

Improving school climate takes time and commitment from a variety of people in a variety of roles. This document outlines key action steps that instructional staff--including teachers, paraprofessionals, and others in the classroom who provide instruction or assistance--can take to support school climate improvements. Key action steps are provided…

Measuring school climate in high schools: a focus on safety, engagement, and the environment.

PubMed

Bradshaw, Catherine P; Waasdorp, Tracy E; Debnam, Katrina J; Johnson, Sarah Lindstrom

2014-09-01

School climate has been linked to multiple student behavioral, academic, health, and social-emotional outcomes. The US Department of Education (USDOE) developed a 3-factor model of school climate comprised of safety, engagement, and environment. This article examines the factor structure and measurement invariance of the USDOE model. Drawing upon 2 consecutive waves of data from over 25,000 high school students (46% minority), a series of exploratory and confirmatory factor analyses examined the fit of the Maryland Safe and Supportive Schools Climate Survey with the USDOE model. The results indicated adequate model fit with the theorized 3-factor model of school climate, which included 13 subdomains: safety (perceived safety, bullying and aggression, and drug use); engagement (connection to teachers, student connectedness, academic engagement, school connectedness, equity, and parent engagement); environment (rules and consequences, physical comfort, and support, disorder). We also found consistent measurement invariance with regard to student sex, grade level, and ethnicity. School-level interclass correlation coefficients ranged from 0.04 to .10 for the scales. Findings supported the USDOE 3-factor model of school climate and suggest measurement invariance and high internal consistency of the 3 scales and 13 subdomains. These results suggest the 56-item measure may be a potentially efficient, yet comprehensive measure of school climate. © 2014, American School Health Association.

Authoritative School Climate and Suspension Rates in Middle Schools: Implications for Reducing the Racial Disparity in School Discipline

ERIC Educational Resources Information Center

Heilbrun, Anna; Cornell, Dewey; Konold, Timothy

2018-01-01

The overuse of school suspensions has been linked to a host of negative outcomes, including racial disparities in discipline. School climate initiatives have shown promise in reducing these disparities. The present study used the Authoritative School Climate Survey--which measures disciplinary structure and student support as key measures of…

Improving School Climate in an Urban Junior High School.

ERIC Educational Resources Information Center

Lawson, Robert C.

The problem of poor school climate in an eighth- and ninth-grade center was addressed by the implementation of a school climate improvement project. The following are the primary goals of this practicum: (1) improve school attendance; (2) reduce out-of-school suspensions; and (3) improve student and teacher morale. To address these goals, a…

School Climate as a Predictor of Incivility and Bullying among Public School Employees: A Multilevel Analysis

ERIC Educational Resources Information Center

Powell, Joshua E.; Powell, Anna L.; Petrosko, Joseph M.

2015-01-01

We surveyed public school educators on the workplace incivility and workplace bullying they experienced and obtained their ratings of the organizational climate of the school. We used multilevel modeling to determine the effects of individual-level and school-level predictors. Ratings of school climate were significantly related to incivility and…

Measuring and Improving School Climate. Final Report.

ERIC Educational Resources Information Center

Madoff, Marjorie; Genova, William

A school climate project was initiated in three vocational training schools in Connecticut. Within each of the schools, a school climate team was established with eight-twelve representative administrator, teacher, student, and parent members. This team, with the support of on-going training, conducted a survey of approximately 400 students and…

Gauging the System: Trends in School Climate Measurement and Intervention

ERIC Educational Resources Information Center

O'Malley, Meagan; Katz, Kristin; Renshaw, Tyler L.; Furlong, Michael J.

2011-01-01

Researchers and educators are giving increasing scrutiny to systems-level constructs that contribute to safe, supportive, and effective schools, including school climate. School climate is a multifaceted construct that is commonly conceptualized as school community members' subjective experiences of the structural and contextual elements of a…

School Organizational Climate and School Improvement.

ERIC Educational Resources Information Center

Dellar, Graham B.; Giddings, Geoffrey J.

The refinement and application of the School Organizational Climate Questionnaire (SOCQ), an instrument for measuring organizational climate, is described in this report. The instrument is a mechanism by which schools can direct their school improvement efforts. In two case studies, a small urban elementary and a large urban secondary school…

Authoritative School Climate, Aggression toward Teachers, and Teacher Distress in Middle School

ERIC Educational Resources Information Center

Berg, Juliette K.; Cornell, Dewey

2016-01-01

Aggression toward teachers is linked to burnout and disengagement from teaching, but a positive school climate may reduce aggression and associated teacher distress. Using authoritative school climate theory, the study examined whether schools with high disciplinary structure and student support were associated with less aggression and less…

Ocean FEST (Families Exploring Science Together)

NASA Astrophysics Data System (ADS)

Bruno, B. C.; Wiener, C. S.

2009-12-01

Ocean FEST (Families Exploring Science Together) exposes families to cutting-edge ocean science research and technology in a fun, engaging way. Research has shown that family involvement in science education adds significant value to the experience. Our overarching goal is to attract underrepresented students (including Native Hawaiians, Pacific Islanders and girls) to geoscience careers. A second goal is to communicate to diverse audiences that geoscience is directly relevant and applicable to their lives, and critical in solving challenges related to global climate change. Ocean FEST engages elementary school students, parents, teachers, and administrators in family science nights based on a proven model developed by Art and Rene Kimura of the Hawaii Space Grant Consortium. Our content focuses on the role of the oceans in climate change, and is based on the transformative research of the NSF Center for Microbial Oceanography: Research and Education (C-MORE) and the Hawaii Institute of Marine Biology (HIMB). Through Ocean FEST, underrepresented students and their parents and teachers learn about new knowledge being generated at Hawaii’s world-renowned ocean research institutes. In the process, they learn about fundamental geoscience concepts and career opportunities. This project is aligned with C-MORE’s goal of increasing the number of underrepresented students pursuing careers in the ocean and earth sciences, and related disciplines. Following a successful round of pilot events at elementary schools on Oahu, funding was obtained through NSF Opportunities for Enhancing Diversity in the Geosciences to implement a three-year program at minority-serving elementary schools in Hawaii. Deliverables include 20 Ocean FEST events per year (each preceded by teacher professional development training), a standards-based program that will be disseminated locally and nationally, three workshops to train educators in program delivery, and an Ocean FEST science kit. In addition, we are currently conducting a series of pilot events at the middle school level at underserved schools at neighbor islands, funded through the Hawaii Innovation Initiative (Act 111). Themes addressed include community outreach, capacity building, teacher preparation, and use of technology.

Racial/Ethnic Differences in Perceptions of School Climate and Its Association with Student Engagement and Peer Aggression.

PubMed

Konold, Timothy; Cornell, Dewey; Shukla, Kathan; Huang, Francis

2017-06-01

Research indicates that a positive school climate is associated with higher levels of student engagement and lower rates of peer aggression. However, less attention has been given to whether such findings are consistent across racial/ethnic groups. The current study examined whether Black, Hispanic, and White high school students differed in their perceptions of school climate, student engagement, and peer aggression as measured by the Authoritative School Climate survey. In addition, the study tested whether the associations between school climate and both student engagement and peer aggression varied as a function of racial/ethnic group. The sample consisted of 48,027 students in grades 9-12 (51.4 % female; 17.9 % Black, 10.5 % Hispanic, 56.7 % White, and 14.9 % other) attending 323 high schools. Regression models that contrasted racial/ethnic groups controlled for the nesting of students within schools and used student covariates of parent education, student gender, and percentage of schoolmates sharing the same race/ethnicity, as well as school covariates of school size and school percentage of students eligible for free- or reduced-price meals. Perceptions of school climate differed between Black and White groups, but not between Hispanic and White groups. However, race/ethnicity did not moderate the associations between school climate and either engagement or peer aggression. Although correlational and cross-sectional in nature, these results are consistent with the conclusion that a positive school climate holds similar benefits of promoting student engagement and reducing victimization experiences across Black, Hispanic, and White groups.

Effects of learning climate and registered nurse staffing on medication errors.

PubMed

Chang, Yunkyung; Mark, Barbara

2011-01-01

Despite increasing recognition of the significance of learning from errors, little is known about how learning climate contributes to error reduction. The purpose of this study was to investigate whether learning climate moderates the relationship between error-producing conditions and medication errors. A cross-sectional descriptive study was done using data from 279 nursing units in 146 randomly selected hospitals in the United States. Error-producing conditions included work environment factors (work dynamics and nurse mix), team factors (communication with physicians and nurses' expertise), personal factors (nurses' education and experience), patient factors (age, health status, and previous hospitalization), and medication-related support services. Poisson models with random effects were used with the nursing unit as the unit of analysis. A significant negative relationship was found between learning climate and medication errors. It also moderated the relationship between nurse mix and medication errors: When learning climate was negative, having more registered nurses was associated with fewer medication errors. However, no relationship was found between nurse mix and medication errors at either positive or average levels of learning climate. Learning climate did not moderate the relationship between work dynamics and medication errors. The way nurse mix affects medication errors depends on the level of learning climate. Nursing units with fewer registered nurses and frequent medication errors should examine their learning climate. Future research should be focused on the role of learning climate as related to the relationships between nurse mix and medication errors.

The Influence of School Culture and School Climate on Violence in Schools of the Eastern Cape Province

ERIC Educational Resources Information Center

Barnes, Kalie; Brynard, Susette; de Wet, Corene

2012-01-01

This article reports on research undertaken about the influence of school culture and school climate on violence at schools in the Eastern Cape. An adapted California School Climate and Survey-Short Form (CSCSS-SF), which was used as the data-collection instrument, was completed by 900 Grade 10 to 12 learners. With the assistance of Pearson's…

The creation of a pedagogy of promise: Examples of educational excellence in high-stakes science classrooms

NASA Astrophysics Data System (ADS)

McCollough, Cherie A.

The current reform movement in education has two forces that appear contradictory in nature. The first is an emphasis on rigor and accountability that is assessed through high-stakes testing. The second is the recommendation to have student centered approaches to teaching and learning, especially those that emphasize inquiry methodology and constructivist pedagogy. Literature reports that current reform efforts involving accountability through high-stakes tests are detrimental to student learning and are contradictory to student-centered teaching approaches. However, by focusing attention on those teachers who "teach against the grain" and raise the achievement levels of students from diverse backgrounds, instructional strategies and personal characteristics of exemplary teachers can be identified. This mixed-methods research study investigated four exemplary urban high school science teachers in high-stakes (TAKS) tested science classrooms. Classroom observations, teacher and student interviews, pre-/postcontent tests and the Constructivist Learning Environment Survey (CLES) (Johnson & McClure, 2004) provided the main data sources. The How People Learn (National Research Council, 2000) theoretical framework provided evidence of elements of inquiry-based, student-centered teaching. Descriptive case analysis (Yin, 1994) and quantitative analysis of pre/post tests and the CLES revealed the following results. First, all participating teachers included elements of learner-centeredness, knowledge-centeredness, assessment-centeredness and community-centeredness in their teaching as recommended by the National Research Council, (2000), thus creating student-centered classroom environments. Second, by establishing a climate of caring where students felt supported and motivated to learn, teachers managed tensions resulting from the incorporation of student-centered elements and the accountability-based instructional mandates outlined by their school district and state agencies. For example, their classroom climate was fair and democratic with elements of mutual respect, student advocacy, the freedom to make mistakes, and student-teacher negotiation practices. Common teacher qualities included being enthusiastic, life-long learners with high expectations for students. When teachers did not agree with administrative mandates that were not in the best interest of their students, they utilized a "close-door" policy. This report provides recommendations including the increased development of student-centered curricula, using multiple test-criteria versus one single standardized test, and increased teacher training to assist in the creation of a climate of caring. Future studies are also suggested.

Organizational Learning Culture, Transfer Climate and Perceived Innovation in Jordan

ERIC Educational Resources Information Center

Bates, Reid; Khasawneh, Samer

2004-01-01

This paper examined the relationship between organizational learning culture, learning transfer climate, and organizational innovation. The objective was to test the ability of learning organization culture to account for variance in learning transfer climate and subsequent organizational innovation, and to examine the role of learning transfer…

Total Quality Management (TQM) Practices and School Climate amongst High, Average and Low Performance Secondary Schools

ERIC Educational Resources Information Center

Ismail, Siti Noor

2014-01-01

Purpose: This study attempted to determine whether the dimensions of TQM practices are predictors of school climate. It aimed to identify the level of TQM practices and school climate in three different categories of schools, namely high, average and low performance schools. The study also sought to examine which dimensions of TQM practices…

76 FR 28238 - Agency Information Collection Activities: Proposed Collection; Comment Request

Federal Register 2010, 2011, 2012, 2013, 2014

2011-05-16

... a Staff School Climate Survey) and a Site Visit Protocol for individuals involved with the SS/HS... Project-Level Survey 100 1 0.42 42 School-Level Survey 2,300 1 0.45 1,725 Staff School Climate Survey 25.... School-Level Survey estimates based on an average of 23 schools per grant. Staff School Climate Survey...

An Investigation of Students' Perceptions about Democratic School Climate and Sense of Community in School

ERIC Educational Resources Information Center

Karakus, Memet

2017-01-01

This study aims to investigate students' perceptions about democratic school climate and sense of community in school. In line with this purpose, it aims to find answers to the following questions: How democratic do students find the school climate? What is students' sense of belonging level at school? What is the academic success level of…

Playing Fair: The Contribution of High-Functioning Recess to Overall School Climate in Low-Income Elementary Schools

ERIC Educational Resources Information Center

London, Rebecca A.; Westrich, Lisa; Stokes-Guinan, Katie; McLaughlin, Milbrey

2015-01-01

Background: Recess is a part of the elementary school day with strong implications for school climate. Positive school climate has been linked to a host of favorable student outcomes, from attendance to achievement. We examine 6 low-income elementary schools' experiences implementing a recess-based program designed to provide safe, healthy,…

76 FR 44340 - Agency Information Collection Activities: Submission for OMB Review; Comment Request

Federal Register 2010, 2011, 2012, 2013, 2014

2011-07-25

... Survey, and a Staff School Climate Survey) and a Site Visit Protocol for individuals involved with the SS... 100 Project-Level Survey 100 1 0.42 42 School-Level Survey 2,300 1 0.45 1,725 Staff School Climate.... School-Level Survey estimates based on an average of 23 schools per grant. Staff School Climate Survey...

Promoting an equitable and supportive school climate in high schools: the role of school organizational health and staff burnout.

PubMed

Bottiani, Jessika H; Bradshaw, Catherine P; Mendelson, Tamar

2014-12-01

In response to persistent racial disparities in academic and behavioral outcomes between Black and White students, equitable school climate has drawn attention as a potential target for school reform. This study examined differences in Black and White students' experiences of school climate and explored whether indicators of school organizational health and staff burnout moderated differences in students' school experiences by race. Utilizing hierarchical linear modeling with a sample of 18,397 Black students (n=6228) and White students (n=12,169) and 2391 school staff in 53 schools, we found a consistent pattern of racial inequalities, such that Black students reported less positive experiences than White students across three indicators of school climate (caring γ=-0.08, p<.001; equity γ=-0.05, p=.007; and engagement γ=-0.05, p<.001). In addition, we found significant, positive associations between aggregated staff-report of school organizational health and student-reported school climate (e.g., staff affiliation and student-perceived equity, γ=0.07, p<.001). Surprisingly, a number of school organizational health indicators were more strongly associated with positive perceptions of school climate among White students than Black students, translating into greater racial disparities in perceived school climate at schools with greater organizational health (e.g., supportive leadership by race on student-perceived engagement, γ=-0.03, p=.042). We also found negative associations between staff-reported burnout and students' experience of equity, such that the racial gap was smaller in schools with high ratings of burnout (γ=0.04, p=.002). These findings have implications for educators and education researchers interested in promoting school social contexts that equitably support student engagement and success. Copyright © 2014 Society for the Study of School Psychology. Published by Elsevier Ltd. All rights reserved.

Model-Based Knowing: How Do Students Ground Their Understanding About Climate Systems in Agent-Based Computer Models?

NASA Astrophysics Data System (ADS)

Markauskaite, Lina; Kelly, Nick; Jacobson, Michael J.

2017-12-01

This paper gives a grounded cognition account of model-based learning of complex scientific knowledge related to socio-scientific issues, such as climate change. It draws on the results from a study of high school students learning about the carbon cycle through computational agent-based models and investigates two questions: First, how do students ground their understanding about the phenomenon when they learn and solve problems with computer models? Second, what are common sources of mistakes in students' reasoning with computer models? Results show that students ground their understanding in computer models in five ways: direct observation, straight abstraction, generalisation, conceptualisation, and extension. Students also incorporate into their reasoning their knowledge and experiences that extend beyond phenomena represented in the models, such as attitudes about unsustainable carbon emission rates, human agency, external events, and the nature of computational models. The most common difficulties of the students relate to seeing the modelled scientific phenomenon and connecting results from the observations with other experiences and understandings about the phenomenon in the outside world. An important contribution of this study is the constructed coding scheme for establishing different ways of grounding, which helps to understand some challenges that students encounter when they learn about complex phenomena with agent-based computer models.

School Climate Research

ERIC Educational Resources Information Center

Thapa, Amrit

2013-01-01

School climate research is clearly evolving. The field demands rigorous and empirically sound research that focuses on relating specific aspects and activities of interventions to changes in specific components of school climate. We also need empirical evidence based on sound research techniques on how both interventions and climate affect…

The Assessment of Organisational Climate in Bedouin Arab Schools in Israel.

ERIC Educational Resources Information Center

Abu-Saad, Ismael

1995-01-01

Summarizes results of a study designed to identify organizational climate factors in Israel's 29 Bedouin Arab elementary schools and to explore their relation to certain teacher and school-level variables, including sex, educational level, tenure, teachers' origin, school type, and school size. The most important organizational climate factor was…

Educators' Perceptions of School Climate and Health in Selected Primary Schools

ERIC Educational Resources Information Center

Pretorius, Stephanus; de Villiers, Elsabe

2009-01-01

The aims in this research were to determine the perceptions of school climate held by educators of primary schools in the southern Cape. Six primary schools with a staff complement of 178 educators participated in the investigation. Two instruments were used: the Organisational Climate Description Questionnaire Rutgers Elementary (OCDQ-RE) and…

School Climate, Peer Victimization, and Academic Achievement: Results from a Multi-Informant Study

ERIC Educational Resources Information Center

Wang, Weijun; Vaillancourt, Tracy; Brittain, Heather L.; McDougall, Patricia; Krygsman, Amanda; Smith, David; Cunningham, Charles E.; Haltigan, J. D.; Hymel, Shelley

2014-01-01

School-level school climate was examined in relation to self-reported peer victimization and teacher-rated academic achievement (grade point average; GPA). Participants included a sample of 1,023 fifth-grade children nested within 50 schools. Associations between peer victimization, school climate, and GPA were examined using multilevel modeling,…

Perceptions of School Climate as a Function of Bullying Involvement

ERIC Educational Resources Information Center

Nickerson, Amanda B.; Singleton, Demian; Schnurr, Britton; Collen, Mary Helen

2014-01-01

From a social-ecological perspective, bullying exists within the larger context of school climate. In this study, 2,240 middle and high school students participated in a districtwide effort to assess the prevalence and effects of bullying and cyberbullying, as well as perceptions of school climate. Students reported positive school climate…

School Climate and Bullying Victimization: A Latent Class Growth Model Analysis

ERIC Educational Resources Information Center

Gage, Nicholas A.; Prykanowski, Debra A.; Larson, Alvin

2014-01-01

Researchers investigating school-level approaches for bullying prevention are beginning to discuss and target school climate as a construct that (a) may predict prevalence and (b) be an avenue for school-wide intervention efforts (i.e., increasing positive school climate). Although promising, research has not fully examined and established the…

Teaching Controversial Topics to Skeptical High School Students

NASA Astrophysics Data System (ADS)

Ford, K. S.

2012-12-01

Tennessee passes the "Monkey Bill" (HB 0368, SB 0893), North Carolina's state government passes a law to criminalize reference in state documents to scientific models that predict sea level rise to reach at least one meter by the next century, and public concern still lags far behind the scientific community's concern on climate change. The American public and even science teachers across the country seem to have lost faith in the ability of the scientific community to unify a strong message about several important scientific lessons, including global warming in particular. This lack of a unified message has weakened the ability of science teachers to effectively teach the lesson of global warming. For science teachers in strongly conservative areas of the country, it is much easier to omit difficult topics and avoid angering parents and school board members. Teachers who do feel strongly about scientifically proven, yet publically controversial topics CAN teach these topics in conservative areas by confirming students' belief systems by being honest and open about motivations surrounding both sides of controversial topics, and by using vocabulary that avoids triggering negative perceptions about these controversial topics. For true learning and change of preconceived opinion to take place, it is important for students to come to the understanding in their own minds in an open and safe learning environment instead of having the message "preached" to them, which only serves to make them feel unintelligent and defensive if they disagree. This presentation will include lessons learned from a practicing science teacher who works in a community that overwhelmingly disputes the validity of human impacts on climate change.

Measuring Inviting School Climate: A Case Study of a Public Primary School in an Urban Low Socioeconomic Setting in Kenya

ERIC Educational Resources Information Center

Okaya, Tom Mboya; Horne, Marj; Lamig, Madeleine; Smith, Kenneth H.

2013-01-01

The present study utilized the Inviting School Survey-Revised (ISS-R) (Smith, 2005b, 2013) based on Invitational Theory and Practice (Purkey & Novak, 2008) to examine the school climate of a public primary school in a low urban socio-economic setting in Kenya. School climate was defined as the perceptions of primary school teachers and pupils…

Relationships between bullying, school climate, and student risk behaviors.

PubMed

Klein, Jennifer; Cornell, Dewey; Konold, Timothy

2012-09-01

This study examined whether characteristics of a positive school climate were associated with lower student risk behavior in a sample of 3,687 high school students who completed the School Climate Bullying Survey and questions about risk behavior from the Youth Risk Behavior Surveillance Survey (YRBS). Confirmatory factor analyses established fit for 20 items with three hypothesized school climate scales measuring (1) prevalence of bullying and teasing; (2) aggressive attitudes; and (3) student willingness to seek help. Structural equation modeling established the relationship of these measures with student reports of risk behavior. Multigroup analyses identified differential effects across gender and race. A positive school climate could be an important protective factor in preventing student risk behavior.

Future orientation, school contexts, and problem behaviors: a multilevel study.

PubMed

Chen, Pan; Vazsonyi, Alexander T

2013-01-01

The association between future orientation and problem behaviors has received extensive empirical attention; however, previous work has not considered school contextual influences on this link. Using a sample of N = 9,163 9th to 12th graders (51.0 % females) from N = 85 high schools of the National Longitudinal Study of Adolescent Health, the present study examined the independent and interactive effects of adolescent future orientation and school contexts (school size, school location, school SES, school future orientation climate) on problem behaviors. Results provided evidence that adolescent future orientation was associated independently and negatively with problem behaviors. In addition, adolescents from large-size schools reported higher levels of problem behaviors than their age mates from small-size schools, controlling for individual-level covariates. Furthermore, an interaction effect between adolescent future orientation and school future orientation climate was found, suggesting influences of school future orientation climate on the link between adolescent future orientation and problem behaviors as well as variations in effects of school future orientation climate across different levels of adolescent future orientation. Specifically, the negative association between adolescent future orientation and problem behaviors was stronger at schools with a more positive climate of future orientation, whereas school future orientation climate had a significant and unexpectedly positive relationship with problem behaviors for adolescents with low levels of future orientation. Findings implicate the importance of comparing how the future orientation-problem behaviors link varies across different ecological contexts and the need to understand influences of school climate on problem behaviors in light of differences in psychological processes among adolescents.

Violence and Disorder, School Climate, and PBIS: The Relationship among School Climate, Student Outcomes, and the Use of Positive Behavioral Interventions and Supports

ERIC Educational Resources Information Center

Eacho, Thomas Christopher

2013-01-01

The primary purpose of this study was to examine the relationship between school climate and student outcome variables. The secondary purpose was to examine the relationship between the use of Positive Behavioral Interventions and Supports (PBIS) and the same student outcome variables. Variables depicting student perceptions of school climate,…

A Model on the Contribution of School Assets to the Achievement of Adolescents' Well-Being and Academic Performance.

PubMed

Pertegal, Miguel-Ángel; Oliva, Alfredo

2017-10-10

The aim of this study was to examine a model on the contribution of school assets on the development of adolescent´s well-being and school success. The sample comprised 1944 adolescents (893 girls and 1051 boys) aged between 12 and 17 years (M = 14.4; SD = 1.13), from secondary schools in Western Andalusia, which completed some self-report questionnaires. The results of structural equation modeling showed the goodness of fit of the initial theoretical model. This model confirmed the importance of school connectedness as a key factor in the relationships between other school assets (social climate; clarity of the rules and values, and positive opportunities and empowerment) and commitment to learning, academic performance and life satisfaction. However, the re-specification of the initial model considered two complementary paths with theoretical sense: first, a direct influence between clarity of the rules and values and commitment to learning, and second, between academic performance and life satisfaction. This model obtained better goodness of fit indices than the first one: χ2 = 16.32; gl = 8; p = .038; χ2/gl = 2.04; SRMR = .018; RSMEA = .023 (95% C.I. = .005; 040); NNFI = .98; CFI = .99. From our study, the need to invest in initiatives focused on the promotion of adolescents' links with their school emerges as a key goal to contribute towards, at the same time, both a good academic performance and a better life satisfaction.

School Climate and Teacher Commitment

ERIC Educational Resources Information Center

Smith, Larry Don

2009-01-01

This study examined the relationship between school climate and teacher commitment. The study focused on elementary schools in Northeast Alabama. Thirty-four elementary schools consisting of 522 teachers took part in the study. The teachers completed two survey instruments: the Organizational Climate Index (OCI) and the Organizational Commitment…

The physical activity climate in Minnesota middle and high schools.

PubMed

Samuelson, Anne; Lytle, Leslie; Pasch, Keryn; Farbakhsh, Kian; Moe, Stacey; Sirard, John Ronald

2010-11-01

This article describes policies, practices, and facilities that form the physical activity climate in Minneapolis/St. Paul, Minnesota metro area middle and high schools and examines how the physical activity climate varies by school characteristics, including public/private, school location and grade level. Surveys examining school physical activity practices, policies and environment were administered to principals and physical education department heads from 115 middle and high schools participating in the Transdisciplinary Research on Energetics and Cancer-Identifying Determinants of Eating and Activity (TREC-IDEA) study. While some supportive practices were highly prevalent in the schools studied (such as prohibiting substitution of other classes for physical education); other practices were less common (such as providing opportunity for intramural (noncompetitive) sports). Public schools vs. private schools and schools with a larger school enrollment were more likely to have a school climate supportive of physical activity. Although schools reported elements of positive physical activity climates, discrepancies exist by school characteristics. Of note, public schools were more than twice as likely as private schools to have supportive physical activity environments. Establishing more consistent physical activity expectations and funding at the state and national level is necessary to increase regular school physical activity.