The National Writing Project (NWP) is collaborating with the Association of Science-Technology Centers (ASTC) on a four-year, full-scale development project that is designed to integrate science and literacy. Partnerships will be formed between NWP sites and ASTC member science centers and museums to develop, test, and refine innovative programs for educators and youth, resulting in the creation of a unique learning network. The project highlights the critical need for the integration of science and literacy and builds on recommendations in the Common Core State Standards and the National Research Council's publication, "A Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas." The content focus includes current topics in science and technology such as environmental science, sustainability, synthetic biology, geoengineering, and other subjects which align with science center research and exhibits. The project design is supported by a framework that incorporates a constructivist/inquiry-based approach that capitalizes on the synergy between rigorous science learning and robust literacy practices. Project deliverables include a set of 10 local partnership sites, professional development for network members, a project website, and an evaluation report highlighting lessons learned. Partnership sites will be selected based on interest, proximity, history, and expertise. Two geographically and demographically diverse cohorts, consisting of five partnerships each will be identified in Years 2 and 3. Each set of partners will be charged with creating a comprehensive two-year plan for science literacy activities and products to be implemented at local sites. It is anticipated that the pilot programs may result in the creation of new programs that merge science and writing, integrate writing into existing museum science programs, or integrate science activities into existing NWP programs. Interest-driven youth projects such as citizen science and science journalism activities are examples of programmatic approaches that may be adopted. The partners will convene periodically for planning and professional development focused on the integration of science and literacy for public and professional audiences, provided in part by national practitioners and research experts. A network Design Team that includes leadership representatives from NWP, ASTC, and the project evaluator, Inverness Research, Inc., will oversee project efforts in conjunction with a national advisory board, while a Partnership Coordinator will provide support for the local sites. Inverness Research will conduct a multi-level evaluation to address the following questions: -What is the nature and quality of the local partner arrangements, and the larger network as a whole? -What is the nature and quality of the local science literacy programs that local partners initiate, and how do they engage local participants, and develop their sense of inquiry and communication skills? First, a Designed-Based Implementation Research approach will be used for the developmental evaluation to assess the implementation process. Next, the documentation and portrayal phase will assess the benefits to youth, educators, institutions, and the field using surveys, interviews, observations of educators, and reviews of science communication efforts created by youth. Finally, the summative evaluation includes a comprehensive portfolio of evidence to document the audience impacts and an independent assessment of the project model by an Evaluation Review Board. This project will result in the creation of a robust learning community while contributing knowledge and lessons learned to the field about networks and innovative partnerships. It is anticipated that formal and informal educators will gain increased knowledge about science and literacy programs and develop skills to provide effective programs, while youth will demonstrate increased understanding of key science concepts and the ability to communicate science. Programs created by the local partnerships will serve approximately 650 educators (450 informal educators and 200 K-12 teachers) and 500 youth ages 9-18. Plans for dissemination, expansion, and sustainability will be undertaken by the sub-networks of the collaborating national organizations drawing on the 350 ASTC member institutions and nearly 200 NWP sites at colleges and universities.
The article discusses citizen science projects focused on entomology, and examines their usefulness for engaging students in science education and providing meaningful hands-on educational experiences. Advice for incorporating citizen science into lessons and curricula are offered, and the applicability of entomology to science education standards is touched on.
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Renee ClarJames WandersheeJohn GuytonMichael Williams
Learning environment studies acknowledge that learning takes place within the social realm and that social conditions contribute to the quality of both learning and experience. This can be said to be especially true for environmental learning programs. To access information about students' perceptions of their learning environment, a robust instrument for describing and measuring student perceptions of environmental education in place-based educational settings was developed and validated. Focus groups with environmental educators were formed to explore (from teachers' perspective) the factors
The Ross Sea Project was a Broader Impact projects for an NSF sponsored research mission to the Ross Sea in Antarctica. The project, which began in the summer of 2010 and ended in May 2011, consisted of several components: (1) A multidisciplinary teacher-education team that included educators, scientists, Web 2.0 technology experts and storytellers, and a photographer/writer blogging team; (2) Twenty-five middle-school and high-school earth science teachers, mostly from New Jersey but also New York and California; (3) Weeklong summer teacher institute at Liberty Science Center (LSC) where teachers and scientists met, and teachers learned about questions to be investigated and technologies to be used during the mission, and how to do the science to be conducted in Antarctica; (4) COSEE NOW interactive community website where teachers, LSC staff and other COSEE NOW members shared lesson plans or activities and discussed issues related to implementing the mission-based science in their classrooms; (5) Technological support and consultations for teachers, plus online practice sessions on the use of Web 2.0 technologies (webinars, blogs, digital storytelling, etc.); (6)Daily shipboard blog from the Ross Sea created by Chris Linder and Hugh Powell (a professional photographer/writer team) and posted on the COSEE NOW website to keep teachers and students up-to-date in real-time on science experiments, discoveries and frustrations, as well as shipboard life; (7) Live webinar calls from the Ross Sea, facilitated by Rutgers and LSC staff, where students posed questions and interacted directly with shipboard researchers and staff; and (8) A follow-up gathering of teachers and scientists near the end of the school year to debrief on the mission and preliminary findings. What resulted from this project was not only the professional development of teachers, which extended into the classroom and to students, but also the development of a relationship that teachers and students felt they had with the scientists and the science. Via personal and virtual interactions, teachers and students connected to scientists personally, while engaged in the science process in the classroom and in the field.
This project examines the design principles by which computer-based science learning experiences for students designed for classroom use can be integrated into virtual worlds that leverage students' learning of science in an informal and collaborative online environment. GeniVille, developed and studied by the Concord Consortium, is the integration of Geniverse, a education based game that develops middle school students' understanding of genetics with Whyville, developed and studied by Numedeon, Inc., an educational virtual word in which students can engage in a wide variety of science activities and games. Genivers has been extensively researched in its implementation in the middle school science classroom. Research on Whyville has focused on how the learning environment supports the voluntary participation of students anywhere and anytime. This project seeks to develop an understanding of how these two interventions can be merged together and to explore mechanisms to create engagement and persistence through incentive structures that are interwoven with the game activities. The project examines the evidence that students in middle schools in Boston learn the genetics content that is the learning objective of GeniVille. The project uses an iterative approach to the modification of Geniverse activites and the Whyville context so that the structured learning environment is accessible to students working collaboratively within the less structured context. The modification and expansion of the genetics activities of the project by which various inheritance patterns of imaginary dragons are studied continues over the course of the first year with pilot data collected from students who voluntarily engage in the game. In the second year of the project, teachers from middle schools in Boston who volunteer to be part of the project will be introduced to the integrated learning environment and will either use the virtual learning environment to teach genetics or will agree to engage their students in their regular instruction. Student outcomes in terms of engagement, persistence and understanding of genetics are measured within the virtual learning environment. Interviews with students are built into the GeniVille environment to gauge student interest. Observations of teachers engaging in GeniVille with their students are conducted as well as interviews with participating teachers. This research and development project provides a resource that blends together students learning in a computer simulation with their working in a collaborative social networking virtual system. The integration of the software system is designed to engage students in learning about genetics in a simulation that has inherent interest to students with a learning environment that is also engaging to them. The project leverages the sorts of learning environments that make the best use of online opportunities for students, bringing rich disciplinary knowledge to educational games. Knowing more about how students collaboratively engage in learning about science in a social networking environment provides information about design principles that have a wide application in the development of new resources for the science classroom.
This CRPA award addresses the issue of multidisciplinary science and the public's awareness of the ideas. The PIs believe that the prevalence of multidisciplinary science is high and growing fast. Thus, the public and particularly the younger generations need to understand these concepts and to begin thinking in those terms. Thus, they will derive hands-on modules for three age groups that are age appropriate. The project team includes 7 NSF funded researchers who do multidiscipline-based research in biology, mathematics and engineering. These modules will be tested at the Boy and Girls Club of Dane County prior to being exhibited at the Madison Children's Museum and the Aldo Leopold Nature Center. Further, the local PBS TV station (WPT) will air some of the demonstrations giving the project more visibility and impact. Each set of modules designed for the three age groups shall be evaluated separately using age specific goals and objectives. The project is a collaboration between 7 scientists and engineers, the Boys and Girls Club of Dane County, the Aldo Leopold Nature Center, the Madison Children's Museum, and the Wisconsin Institutes of Discovery of the University of Wisconsin.
This project takes advantage of the charismatic nature of arachnids to engage the public in scientific inquiry, dialogue, and exploration. The project has two specific programs: (1) The development, implementation, and assessment of an informal museum event entitled 'Eight-Legged Encounters' which now has more than 25 associated activity stations. These activities encompass stations relating to (a) classification and systematics (e.g., 'What is an Arthropod', 'Create a Chelicerate', and 'Assemble an Arachnid'), (b) spider-specific stations focused on silk (e.g., 'Build a Burrow', 'Cribellate vs. Ecribellate Silk', 'Weave a Web', and 'Catch a Moth'), and (c) research related stations (e.g., 'Microscope Madness' and 'Community Experiment'). In addition, there is a stand-alone module entitled the 'Path of Predators' that includes an activity booklet and eleven stations that walk participants through the eleven living arachnid orders. Each stations has original artwork backdrops, clay sculptures, trading cards, and collectible stamps (participants place stamps on a phlylogenetic tree depicting the current hypothesis of evolutionary relationships among the eleven orders). Most stations have live animals and prizes are given to participants that complete their stamp booklet. 'Eight-Legged Encounters' has been hosted at the Nebraska State Museum (Morrill Hall) twice, with record-breaking attendance (>800 people in
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University of Nebraska-LincolnEileen Hebets
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.
The NASA Science Research Mentoring Program (NASA SRMP) is an established mentoring program that presents the wonders of space exploration and planetary sciences to underserved high school students from New York City through cutting-edge, research-based courses and authentic research opportunities, using the rich resources of the American Museum of Natural History. NASA SRMP consists of a year of Earth and Planetary Science (EPS) and Astrophysics electives offered through the Museum’s After School Program, year-long mentorship placements with Museum research scientists, and summer programming through our education partners at City College of New York and the NASA Goddard Institute for Space Studies. The primary goals of the project are: 1) to motivate and prepare high school students, especially those underrepresented in science, technology, engineering and math (STEM) fields, to pursue STEM careers related to EPS and astrophysics; 2) to develop a model and strategies that can enrich the informal education field; and 3) to engage research scientists in education and outreach programs. The program features five in-depth elective courses, offered twice per year (for a total of 250 student slots per year). Students pursue these preparatory courses during the 10th or 11th grade, and a select number of those who successfully complete three of the courses are chosen the next year to conduct research with a Museum scientist. In addition to providing courses and mentoring placements, the program has produced curricula for the elective courses, an interactive student and instructor website for each course, and teacher and mentor training outlines.
Science Club is an after school program created in partnership between Northwestern University and the Boys & Girls Clubs of Chicago. Every week throughout the academic year, middle school youth (grades 5-8) work in small groups with their graduate student mentors on challenging, hands-on experiments. The six Science Club curricular modules cover topics ranging from biomedical engineering to food science, all with the goals of helping youth to 1) improve their understanding of the scientific method, 2) develop scientific habits of mind, and 3) increase their interest in STEM fields, particularly health-related careers. Science Club serves 60 youth every quarter with the help of 30 trained scientist mentors. Science Club meets three days a week at the Pedersen-McCormick Boys & Girls Club in Chicago, IL.
The author discusses her experiences in utilizing a sixth-grade Earth science field trip for students as an active research project. She examines a research project assignment conducted on the Sant Ocean Hall at the Smithsonian National Museum of Natural History in Washington, D.C. The author suggests that the use of active research can be applied to any museum or exhibit in the U.S.
SciGirls CONNECT is a broad national outreach effort to encourage educators, both formal and informal, to adopt new, research-based strategies to engage girls in STEM. SciGirls (pbskids.org/scigirls) is an Emmy award-winning television program and outreach program that draws on cutting-edge research about what engages girls in science, technology, engineering and math (STEM) learning and careers. The PBS television show, kids' website, and educational outreach program have reached over 14 million girls, educators, and families, making it the most widely accessed girls' STEM program available nationally. SciGirls' videos, interactive website and hands-on activities work together to address a singular but powerful goal: to inspire, enable, and maximize STEM learning and participation for all girls, with an eye toward future STEM careers. The goal of SciGirls is to change how millions of girls think about STEM. SciGirls CONNECT (scigirlsconnect.org) includes 60 partner organizations located in schools, museums, community organizations and universities who host SciGirls clubs, camps and afterschool programs for girls. This number is intended grow to over 100 by the end of the project in 2016. SciGirls CONNECT provides mini-grants, leader training and educational resources to partner organizations. Each partner training session involves educators from a score of regional educational institutions. To date, over 700 educators have received training from over 250 affiliated organizations. The SciGirls CONNECT network is a supportive community of dedicated educators who provide the spark, the excitement and the promise of a new generation of women in STEM careers. Through our partner, the National Girls Collaborative Project, we have networked educational organizations hosting SciGirls programs with dozens of female role models from a variety of STEM fields. The SciGirls CONNECT website hosts monthly webinars, a quarterly newsletter, gender equity resources, SciGirls videos and hands-on activities. SciGirls also promotes the television, website and outreach program to thousands of elementary and middle school girls and their teachers both locally and nationally at various events.