The Coalition for Science After School was initiated through two NSF-funded meetings in 2004 and 2005 that brought science education and out-of-school time leaders together to explore strategies for further merging the two fields. Through the second conference, held in Marina del Ray, CA, a blueprint for CSAS was designed and finalized. Under the leadership of an eight-member Executive Committee, an expanded 20-member Steering Committee, and acting director Bronwyn Bevan, CSAS was launched with 40 members. The meeting report, A Blueprint for Action (2007), laid out CSAS priorities and
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TEAM MEMBERS:
The Coalition for Science After SchoolThe Coalition for Science After School
In 2008 the Coalition for Science After School and Afterschool Alliance published an issue brief on STEM in out-of-school time, "Afterschool programs: At the STEM of Learning."
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TEAM MEMBERS:
The Coalition for Science After SchoolThe Afterschool Alliance
In 2009 the Coalition for Science After School hosted the First National Conference on Science and Technology in Out-of-School Time. Funded by the Noyce Foundation, with additional support from Science Chicago, the Motorola Foundation, and the United States Department of Education, the meeting took place in Chicago, IL and resulted in a 2009 report, "A Watershed Moment."
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The Coalition for Science After SchoolThe Coalition for Science After SchoolProject Exploration
During 2008, CSAS worked to document the key projects, resources and people working to incorporate STEM learning opportunities as part of out-of-school time programs. This work resulted in the formation of three communities of practice: Staff Capacity and Professional Development, Development of STEM Learning Activities, and Programs and Program Improvement. The purpose of these communities of practice was to strengthen the intellectual foundation of out-of-school time STEM education, and provide the professionals who serve the out-of-school time field with common concepts, models and
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TEAM MEMBERS:
The Coalition for Science After SchoolThe Coalition for Science After School
In preparation for its sunset of operations, the Coalition for Science After School Steering Committee decided to organize a Summit, Passing the Torch: Advancing Opportunity for Quality Science Learning. The meeting took place in March 2014, hosted by the Exploratorium in San Francisco. An invited group of sixty leaders came together from across the STEM education, youth development, and out-of-school time communities to assess the accomplishments, challenges, gaps, and essential resources needed to provide quality STEM learning opportunities for all youth, and to pass the torch for making
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TEAM MEMBERS:
The Coalition for Science After SchoolKaren Stratvert
In 2007, CSAS Steering Committee member Lucy Friedman and Sylvia James from the National Science Foundation published a chapter on STEM in out-of-school time in Afterschool Advantage by Foundations, Inc.
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TEAM MEMBERS:
The Coalition for Science After SchoolLucy FriedmanSylvia James
Rockman et al evaluated BURN: An Energy Journal, an NSF-funded radio series about the energy issues that impact our communities. Evaluation activities consisted of formative and summative focus groups, web usability studies, interviews with listeners, and surveys.
The Coalition for Science After School was launched January 28, 2004 at the Santa Fe Institute, home to the world’s leading researchers on the study of complexity. Against the dazzling backdrop of the New Mexican mesa, 40 educational leaders from diverse but overlapping domains—science, technology, engineering and mathematics education and after-school programs—met to grapple with three emerging, important trends in youth development and science learning in this country: 1. An explosion in the number of U.S. youth attending after-school programs, and increasing links between school and after
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TEAM MEMBERS:
The Coalition for Science After SchoolLeah Reisman
From March 26-28, 2014, the Coalition for Science After School (CSAS) hosted its final summit, Passing the Torch: Advancing Opportunity for Quality Science Learning. The Summit was intended to: (1) celebrate a decade of progress in strengthening and expanding STEM learning opportunities in out-of-school time; (2) call attention to critical issues in ensuring that all young people have opportunities for quality STEM experiences in their local communities; and (3) stimulate ideas, strategies, partnerships and commitments to continue to increase opportunities for quality STEM experiences across
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TEAM MEMBERS:
The Coalition for Science After SchoolLeah Reisman
The Decapoda - shrimp, lobsters, and crabs - are an economically important, diverse group of animals whose geologic history extends back 400 million years. Living representatives, numbering over 15,000 species, are global in distribution and nearly ubiquitous in oceanic and non-oceanic environments. They exert a major impact on ecosystems; understanding the dynamics of their fossil record will illuminate their historical impact on ecosystems. We will test the hypothesis that decapods are arrayed in a series of discrete evolutionary faunas; remarkably, the vast array of living and fossil decapods in diverse interrelated groups have exploited four basic body plans repeatedly. Other hypotheses to be tested are that the Decapoda have repeatedly adopted a limited number of baupläne, or generalized architectures, throughout their history; that they have experienced explosive evolutionary radiations followed by periods of no determinable change; and that they are generally resistant to mass extinction events. These hypotheses will be tested using a unique dataset compiled and assessed by the Principle Investigators: a compilation of all fossil decapod species, arrayed in a classification scheme including fossil and living taxa, with geologic and geographic ranges of all species, including a phylogeny (i.e. "family tree") for many sub-groups within the Decapoda. The dataset will be expanded to include ecological data for each taxon and will be entered into the Paleobiology Database, an NSF-supported vehicle for analyzing the fossil record. Employing its methodology, patterns of diversity and macroevolution of the decapods will be generated at levels ranging from the entire Order to species level. This will result in a comprehensive analysis of macroevolutionary patterns of this major group for the first time. Available paleoecological data derived from field studies and published records will be used to determine the effects of various environmental factors such as seafloor conditions, reef development, water depth, and temperature on morphology, extinction survivorship, and diversity. Because decapods have a remarkable range of morphological variation preservable in the fossil record, the diversity of the groups of decapods can be assessed in relation to their morphological characteristics. Defining the history of taxa with specialized morphology will permit recognition of body plans that have been exploited by different decapod groups throughout the history of the clade.
Intellectual merit. This study will provide the most comprehensive analysis of macroevolution of the Decapoda yet conducted, all based upon a unique dataset that is internally consistent by virtue of its having been developed entirely by the investigators. It will document the significance of employing a high resolution, species-level database for interpretation of diversity. The hypotheses and conclusions derived here will provide a model and the foundation for future work on Decapoda, Arthropoda, and macroevolution of well-constrained groups. It will provide a test for the efficacy of PBDB data versus a constrained dataset assessed by specialist systematists.
Broader impacts. The work will introduce undergraduate students at Kent State at Stark, an undergraduate campus, and Kent State at Kent, to research that involves paleoecological, paleogeographical, and functional morphological elements which, in turn, will be communicated to other students. Because decapods are known to virtually everyone, they form an excellent group to use to inform the public about ancient patterns of diversity and the relationship between the morphology of organisms, variations in their environmental requirements, and their adaptability to different physical conditions. This will be conveyed in a professionally constructed display which has the potential to be exhibited in museums and universities around the country. Small kits designed for use in elementary and middle schools will be available to allow students to make their own observations about the adaptations of decapods to their environment and its effect on diversity. Published papers and presentations on results of research at meetings will be prepared throughout the course of the research. Because the study of modern biodiversity is a concern of the general public, presentations to broader audiences as well as geology classes will provide a broad historical context for understanding modern patterns of diversity. Data entered into Paleobiology Database and Ohio Data Resource Commons will be openly available to other researchers and the general public. Combined, the databases will assure archival storage and public access, following a proprietary period.