F as in Fat: How Obesity Policies Are Failing in America, 2005

Examines national and state obesity rates and government policies. Challenges the research community to focus on major research questions to inform policy decisions, and policymakers to pursue actions to combat the obesity crisis

Shaping a Healthier Generation: Healthy Kids, Healthy America State Profiles of Progress

Profiles states' efforts to advance childhood obesity prevention at the state level through childcare settings, policy prioritization, and school-based activities. Presents case studies of strategies, partnerships, and tools for coordinating policies

Opportunity to Learn Audit: Elementary School Science

Despite widespread media and public attention to the need for U.S. students to be globally competitive in science-related fields, remarkably little emphasis is placed on improving elementary science in U.S. public schools. Yet, it is effective elementary science programs that provide the foundation for a sound K-12 education in science. In a new report, Opportunity to Learn: Elementary Science, the Rennie Center analyzes whether students in high- and low-performing schools receive equitable opportunities to learn in science and, importantly, profiles the promising practices of schools that are beating the odds and succeeding at educating students to high levels in science. This report is the first in a two-part study that the Rennie Center is producing on Massachusetts students' opportunity to learn science. The second report, to be released in late Fall 2008, is being developed in partnership with the Education Development Center and will highlight opportunities to learn science at the high school level (9-12). The federal No Child Left Behind (NCLB) legislation and state accountability systems have created external incentives to improve student achievement in science in addition to English language arts (ELA) and math. In 2010, Massachusetts will require all 10th graders to pass one of the science MCAS tests (in biology, physics, chemistry or technology/engineering) in order to receive a diploma. Yet, to date, schools have increasingly placed their emphasis on math and ELA, to the detriment of science. There also exists a substantial racial/ethnic achievement gap in the sciences, just as there is in math and ELA. English language learners, those who are African American or Hispanic, and students from low-income homes are all falling well below the standards for proficiency set by the state. Given that the state holds all students accountable for their performance in science, it is necessary to examine whether all students are receiving equitable opportunities to learn and succeed at science. This report seeks to identify concretely what top-performing schools do to support science instruction and to draw out considerations for policymakers at the district and state levels.Themes across the SchoolsThe following is a description of greater opportunities to learn science that are present in top-performing schools, compared to low-performing schools:More time on science.Teachers who specialize in science.Regularly scheduled support from district science coordinators.Science materials housed at the schools (rather than at the district).Professional development in scienceSchool budgets for science.High levels of parent involvement in and advocacy for science.Accessibility to natural resources.School leadership focused on science.RecommendationsFor school and district leaders:Make science a high priority in schools and across the district. Promote the integration of science with math and literacy. Set and monitor guidelines for time on science. Develop and monitor adherence to science curriculum that is mapped to state frameworks. Support, document, and -- if necessary -- mandate science-related professional development for elementary school teachers. Identify teachers with high levels of interest in science. Solicit engagement of local business and community leaders in science. For state policymakers:Providing more resources and ensuring that all elementary students in Massachusetts have opportunities to learn science and to achieve at high levels will require coordinated efforts by both state legislators and the Department of Elementary and Secondary Education.The following are recommendations for consideration by both state legislators and the Department. Support expanded school day initiatives and encourage more time for subjects like science, especially for low-income and minority students. Provide mentoring and support for elementary teachers to become school-based science resource specialists. Provide broad, fundamental professional development that is aligned with state frameworks in science for elementary teachers, giving preference to low-performing schools that agree to send a critical number of teachers. Provide technical assistance and training on integrating science, literacy and mathematics instruction. Support enrichment opportunities for low-performing schools that lack active parent and community engagement in science. Provide a supplementary materials budget to under-resourced schools

What influences the emergence of a new subject in schools? The case of environmental education

New subjects are always emerging but only some gain a place in the formal school curriculum. In fact, most of the now accepted conventional school subjects have, at some stage, struggled to become established. This paper presents findings of a three-year study of teacher and school responses to the introduction of environmental education (EE) as a new subject within the Taiwan national curriculum. School leaders and teachers were interviewed the year prior to the introduction of the new curriculum and during the first two years of implementation. Findings substantiate the importance of six themes (such as examination status and a university pathway) raised in elaborations of the traditional Layton/Goodson model. However, the complex community-school relationships and the value accorded in EE to community-based and even global action, as opposed to academic outcomes, highlighted the need for curriculum policy makers to consider expanding the traditional model with another five themes and most importantly introducing three particular themes. When seeking to promote the emergence of a holistic and integrative subject such as environmental education there is a need to also consider local environment involvement, the transformative nature of EE within whole school involvement, and linkages with a national cooperation network. Without these factors it appears EE may struggle to gain a place in the curriculum

F as in Fat: How Obesity Policies Are Failing in America, 2004

Examines national and state obesity rates and government policies. Focuses on setting a baseline of current policies and programs, and offers a comprehensive look at their range and quality

Virginia Earth Science Collaborative: Developing Highly Qualified Earth Science Teachers

A collaborative of seven institutes of higher education and two non-profit organizations developed and implemented five earth science courses totaling eighteen credits that enabled secondary teachers to acquire an add-on earth science endorsement: Geology 1: Physical Geology (4), Geology II: Geology of Virginia (4), Oceanography (4), Astronomy (Space Science for Teachers) (3), and Meteorology (3). These courses were collaboratively developed and included rigorous academic content, research-based instructional strategies, and intense field experiences. The thirty-three sections offered statewide served 499 participants. Three courses were offered to strengthen the skills of earth science teachers: Teaching Eath Science Topics to Special Education Students (3), Integrating New Technologies in the Earth Sciences (3). and GeoVirginia: Creating Virtual Field Trips (non-college credit). In these six sections, seventy-four people participated. Outcomes included an increased pool of endorsed earth science teachers and teachers with coursework in the earth sciences, a website with virtual field trips, and a statewide network. Partners included the College of William & Mary and its Virginia Institute of Marine Sciences, George Mason University, James Madison University, Longwood University, the MathScience Innovation Center (formerly the Mathematics & Science Center), Radford University. Science Museum of Virginia, University of Virginia Southwest Center, Virginia Commonwealth University, and eighty-three school divisions

Responsible research and innovation in science education: insights from evaluating the impact of using digital media and arts-based methods on RRI values

The European Commission policy approach of Responsible Research and Innovation (RRI) is gaining momentum in European research planning and development as a strategy to align scientific and technological progress with socially desirable and acceptable ends. One of the RRI agendas is science education, aiming to foster future generations' acquisition of skills and values needed to engage in society responsibly. To this end, it is argued that RRI-based science education can benefit from more interdisciplinary methods such as those based on arts and digital technologies. However, the evidence existing on the impact of science education activities using digital media and arts-based methods on RRI values remains underexplored. This article comparatively reviews previous evidence on the evaluation of these activities, from primary to higher education, to examine whether and how RRI-related learning outcomes are evaluated and how these activities impact on students' learning. Forty academic publications were selected and its content analysed according to five RRI values: creative and critical thinking, engagement, inclusiveness, gender equality and integration of ethical issues. When evaluating the impact of digital and arts-based methods in science education activities, creative and critical thinking, engagement and partly inclusiveness are the RRI values mainly addressed. In contrast, gender equality and ethics integration are neglected. Digital-based methods seem to be more focused on students' questioning and inquiry skills, whereas those using arts often examine imagination, curiosity and autonomy. Differences in the evaluation focus between studies on digital media and those on arts partly explain differences in their impact on RRI values, but also result in non-documented outcomes and undermine their potential. Further developments in interdisciplinary approaches to science education following the RRI policy agenda should reinforce the design of the activities as well as procedural aspects of the evaluation research

Using Food to Demonstrate Earth Science Concepts: a Review

Researchers categorized over one hundred print and web resources that use food to demonstrate earth science concepts. This article describes their findings: food-based activities are found in print and web-based resources with nearly equal frequency; most feature geologic themes; most are designed for primary and middle school audiences, but can be adapted for older students; and most of these activities meet the National Science Standard "Structure of the Earth" for middle school students. The authors suggest that food-based activities are a way to make subject matter more exciting and understandable, particularly for those with little or no background in science, and that food, which students consume daily, can serve as a reality based analogy to better understand many of the unfamiliar, abstract concepts taught in earth science classes. Educational levels: Graduate or professional

Using Public Schools as Community-Development Tools: Strategies for Community-Based Developers

This paper explores the use of public schools as tools for community and economic development. As major place-based infrastructure and an integral part of the community fabric, public schools can have a profound impact on the social, economic and physical character of a neighborhood. Addressing public schools, therefore, is a good point of entry for community-based developers to place their work in a comprehensive community-development context. The paper examines ways in which community-based developers can learn from, as well as contribute to, current community-based efforts, particularly in disinvested urban areas, to reinforce the link between public schools and neighborhoods. Furthermore, the paper considers the policy implications of including public schools in comprehensive development strategies, and argues that reinforcing the link between public schools and neighborhoods is not only good education policy, but also good community-development policy and practice

Implementing Observation Protocols: Lessons for K-12 Education From the Field of Early Childhood

Examines issues for implementing standardized observation protocols for teacher evaluations. Makes recommendations based on lessons from preschool, such as the need to show empirical links between teacher performance and student learning and development