The Ft. Worth Museum of Science and History will develop "Texas Dinosaurs: How Do We Know? -- Regional Dissemination of Science Inquiry Exhibits and Educational Programs on Paleontology." This will be a major permanent and portable exhibition project that will be accompanied by an array of educational programs for formal and informal audiences throughout Texas. The permanent 12,000 sq. ft. exhibit, "Texas Dinosaurs: How Do We Know?", will recreate field and laboratory processes of paleontological research in an inquiry approach to public learning in geology, biology, ecology and mathematics. Portable versions of the exhibit will be distributed to the Dinosaur Valley State Park in Glen Rose, the Texas Parks and Wildlife Headquarters, the Panhandle-Plains Historical Museum in Canyon, the Science Spectrum in Lubbock, the McAllen International Museum, and the El Paso Insights Science Museum -- all in Texas. Regional dissemination of "How Do We Know?" exhibits and educational programs and materials will reach at least 1.5 million people annually, including isolated rural communities in the large geographic region of Texas.
The Anchorage Museum of History and Art will develop "Lifting the Fog: Russian Exploration in the North Pacific, 1728-1867." This exhibition will reveal the world of the naturalists, oceanographers, astronomers, cartographers, ethnographers and artists who first described the west coast of America and the northern Pacific Ocean to the world. Approximately 200,000 visitors to the museum will view the 5,300-sq. ft. exhibition. Public programs will complement the exhibition, including a family day, lecture series by marine biologists, living history programs, weekend workshops, and an international symposium. An illustrated catalog with interpretive essays and a school curriculum and teachers' guide will accompany the exhibition. The exhibition will travel to three additional venues in the United States.
Screenscope, Inc., is producing three programs in the PBS series, "Journey to Planet Earth." The series has the goal of helping the general public understand and cope with the difficulties of developing a global agenda that addresses the environmental concerns of the next millennium. The series will examine the earth using the latest satellite imagery as well as from providing a more closeup view through the eyes of people who inhabit the many different regions of the world. It will use intimate personal portraits to show how people's every day lives are affected by both local and global environmental pressures. The series will link the sciences with economics, politics, geography, and history. Each episode will feature four to five related stories and case studies selected from different geographic regions and about people from different ethnic and cultural backgrounds. The television series will be supported by an informal, community-based outreach program in science museums and neighborhood centers, activity kits and teaching guides, interactive workshops on the World Wide Web, and strategic partnerships with environmental organizations to raise public awareness of the series and the outreach activities. The Co-PIs and producers of the television series are Marilyn and Hal Weiner. They will work closely with a group of advisors including: Chet Cooper, Battelle/Pacific Northwest National Laboratory; Edward Frieman, Director Emeritus of the Scripps Institution of Oceanography and Vice Chancellor of the University of California; Nay Htun, United Nations Development Programme; Tom Lovejoy, Counselor to the Secretary for Biodiversity and Environmental Affairs, Smithsonian Institution; Per Pinstrup-Andersen, International Food Policy Research Institute; and Maurice Strong, Chairman of the Earth Council and former Secretary-General of the United Nations Earth Summit in Rio de Janeiro. In addition, each episode will have two research scientists who are experts on specific disciplines being featured. Outreach will be developed in association with the Chicago Academy of Sciences.
The Exploratorium requests $1,389,665 to develop "Live @ the Exploratorium: Origins." The Exploratorium will conduct a three-year pilot project to develop an experimental series of Webcasts, related Web-based resources, and museum activities . The project will use new communications technologies to create an ongoing link between Internet and museum audiences and current scientific research efforts at observatories around the world where scientists are investigating the origins of matter, the universe, the Earth, and life itself. The Exploratorium will establish a remote connection to six science research locations investigating particle physics, cosmology, polar research, earthquake research, astrobiology and genetics. During each live Webcast museum visitors and Internet visitors will be able to interact with scientists at the remote observatories.
This Volunteer Water Quality Monitoring National Facilitation Project is designed to build a comprehensive support system for Extension-affiliated and other volunteer water quality monitoring efforts across the country. The goal is to expand and strengthen the capacity of existing volunteer monitoring programs and support development of new groups. We have developed a modular "Guide for Growing CSREES Volunteer Monitoring Programs" to direct you to resources and help you start asking questions that you’ll need to answer in order to create an effective program that meets the needs of your community. The Guide has been designed as a series of ‘chapters’ or modules that can be used alone or in conjunction with other modules. The Guide brings together the excellent resources produced by a wide variety of monitoring programs or agencies with numerous references and links to a wide variety of materials.
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TEAM MEMBERS:
United States Department of AgricultureUniversity of Rhode Island Cooperative ExtensionSalish-Kootenal CollegeUniversity of Wisconsin ExtensionLinda Green
The Science Museum of Minnesota (SMM) in collaboration with the Illinois State Museum (ISM), the St. Louis Science Center (SLSC), and the National Center for Supercomputing Applications(NCSA) at the University of Illinois in Champaign, Illinois, will form a museum consortium to develop two virtual reality interactive displays (River Pilot Simulator and Digital River Basin) and other web-based activities that focus on the Mississippi River. This group will be known as the Mississippi River Web Museum Consortium. Each museum will end up with both software modules that will lead visitors to the story of the River. The river's local presence will serve as an entry point for the visitors at each museum. The NCSA will contribute their access to and knowledge of powerful computer simulation, scientific visualization, and collaborations technologies that are usually restricted to research settings and rarely available to a museum audience or the general public. The Consortium will also develop a shared site on the WWW that will invite users to engage in guided inquiry that will deepen their understanding of the large, complex, and integrated river system. The science content underlying the project will include river hydrology and geomorphology, life sciences, environmental studies employing geographic information systems, and the physics of motion. The activities will address a number of the National Science Education Standards. Complementary programming linking these activities with formal education include a RiverWeb(tm) Posting Board and a RiverWeb(tm) Classroom Resource Guide.
The Science Museum of Minnesota (SMM) in collaboration with the Illinois State Museum (ISM), the St. Louis Science Center (SLSC), and the National Center for Supercomputing Applications(NCSA) at the University of Illinois in Champaign, Illinois, will form a museum consortium to develop two virtual reality interactive displays (River Pilot Simulator and Digital River Basin) and other web-based activities that focus on the Mississippi River. This group will be known as the Mississippi River Web Museum Consortium. Each museum will end up with both software modules that will lead visitors to the story of the River. The river's local presence will serve as an entry point for the visitors at each museum. The NCSA will contribute their access to and knowledge of powerful computer simulation, scientific visualization, and collaborations technologies that are usually restricted to research settings and rarely available to a museum audience or the general public. The Consortium will also develop a shared site on the WWW that will invite users to engage in guided inquiry that will deepen their understanding of the large, complex, and integrated river system. The science content underlying the project will include river hydrology and geomorphology, life sciences, environmental studies employing geographic information systems, and the physics of motion. The activities will address a number of the National Science Education Standards. Complementary programming linking these activities with formal education include a RiverWeb(tm) Posting Board and a RiverWeb(tm) Classroom Resource Guide.
Design Technology in After School Programs is a collaboration between science centers and community-based programs to provide "hands on" activities for children age 6-10 in an informal setting. This project enables science centers and community-based organizations to use their expertise to conduct outreach for students and their parents using activities developed. The activities will consist of a variety of design projects that will challenge children to build working models of technological devices. The materials involved in the activities are common everyday items that are usually found around the home. The project will be scaled up each of the three years to reach six science centers and 25-30 after school programs in major areas of the eastern part of the United States. The PI will produce a manual for collaboration and a design technology guide for publication and national dissemination. The cost sharing for this project is 33% of the total project budget.
The Science Museum of Minnesota (SMM) requests a grant from the National Center for Research Resources through the SEPA program to develop and evaluate a model biomedical science education partnership program in collaboration with the University of Minnesota's Cancer Center, Medical School, School of Public Health, and College of Veterinary Medicine. The museum will work with 19 researchers at the University to develop a multifaceted exhibition and presentation program focusing on the importance of human tissues in biological development, function, and disease. The 1500-square-foot exhibition, to be located in SMM's new Human Body Gallery, will consist of an introduction to tissues and four topical exhibit clusters. Each topic was chosen because it tells a fascinating story of how the human body works and because it represents an important current NIH research focus in health and medicine. The exhibits will emphasize the importance of understanding how tissue function and viability leads to advances in detection, treatment, and curing different diseases. The exhibits closely support the National Science Education Standards Content Standards for Life Science for grades 5-9 (representing the majority of school field trip visitors to the museum.) A complimentary presentation/outreach program will involve NIH-supported researchers in three programs designed to increase public understanding of basic biomedical science, the causes and cures for disease, and the goals and achievements of biomedical research. A Visiting Scientists Program will feature scientists in the museum presenting programs and demonstrations related to their research interests. A Scientist Mentor Program will involve scientists closely with a diverse team of high-school aged youth to develop ongoing demonstrations and community outreach programs. A Dramatic Presentation will bring home to museum visitors the wider ethical and philosophical dimensions of tissue research.
The investigators address a major educational challenge by introducing a novel format and content for science education, (a) building on past successes; (b) combining development and dissemination at a new level; and (c) centered around an interactive planetarium show aimed to inform the public on an emerging scientific discipline and medical field: Tissue Engineering. For achieving a multitude of goals, the investigators propose the establishment of a unique partnership in scientific and medical education, bringing together university researchers, clinical leaders, science center experts, and students, educators and community representatives at all levels. The project is catalyzed by the Pittsburgh Tissue Engineering Initiative, a non-profit organization dedicated to the promotion of tissue engineering and its application to improving people's lives. The main goals fall in three categories, as follows: Education: - To communicate scientific information about the human body (principles of function will be emphasized over specific facts or terminology by focusing on a limited but fundamental set). -To convey the excitement and importance of tissue engineering research. The show will utilize engaging interactive demonstrations of tissue functions and illustrate the medical uses and potential of this field. Innovation: - To enhance the educational experience. The developers will use group-interactive technology as a tool for education by engaging participants as participants in the processing functions of the body. A special visualization/interactivity laboratory will be used where prototype interactive scenarios will be tested using focus groups, consultants and representatives of the target audiences. Dissemination: - To insure national distribution to other planetaria. The presentation system will utilize portable interactive technology (to be developed). It will be deployed to planetaria throughout the country, coordinated by the Association of Science and Techology Centers (ASTC). - To engage the target audience in the development process. Content development will be achieved by a consortium of leading research universities and medical centers, with input from a panel of worldclass experts. Visualization, interactivity and sound technologies will be developed in Pittsburgh, in a unique collaboration between the arts and sciences, based on past successes. Evaluation activities will be extensive, as will the range and targets of the spin-off educational materials. The Carnegie Science Center planetarium itself will serve in achieving group immersive visualization, akin to virtual reality, for improving target audience involvement. The expected outcome is a new way of delivering educational content, and a better understanding of the emerging field of tissue engineering by the general public.
The Nature of Aging project presents the biology of senescence to families and K-12 students through interactive exhibits and museum experiences. Senescence is perhaps the most complex and least understood biological process, yet it is also a universal experience marked by signs we all recognize. Aging has great relevance in the twenty-first century as medical advances and demographic shifts accelerate the growth of our elder population, and scientific research narrows in on the central mysteries of the aging process. In partnership with the Center for Healthy Aging at the Oregon Health and Science University (OHSU) and national experts in gerontology research and education, the Nature of Aging project has produced a 2,500-square-foot permanent exhibition, Amazing Feats of Aging, which opened in OMSI-s Life Science Hall in May 2003. A duplicate 2,500 traveling exhibition was also produced and began its national tour in June 2004. The proposed eight-year tour to an average of three venues per year is funded by exhibition rental fees and significantly extends the life and audience of the project. Visitors to the Amazing Feats of Aging exhibition explore comparative aging across the animal kingdom, healthy aging, and the aging of the brain. The exhibition is intended for a family audience, and activities are designed to foster intergenerational interaction. The exhibit experience is enriched by a series of educational materials and programs including a teachers- guide, an interactive website, demonstrations, and activities in OMSI-s Life Science Lab. The Amazing Feats of Aging exhibition was made possible by the contribution of expertise, photographs, video footage, software, prepared slides and specimens from scientists and researchers across the country, including: Aging Concerns, Florida Fish and Wildlife Conservation Commission, OHSU, Oregon Department of Fish and Wildlife, National Institute on Aging, Oregon Zoo, Portland State University, University ofCalifornia, San Francisco, University of Colorado, Boulder, University of Idaho, University of Illinois at Urbana-Champaign, University of Virginia, and Washington State University.
The Children's Museum of Houston (CMH) and Baylor College of Medicine (BCM) collaborated to create and travel a museum exhibit on children's environmental health for a target audience of children 5-10, their parents, caregivers, and teachers. My Home Planet Earth (MHPE) is based on the NIH-funded, interdisciplinary My Health My World educational program developed at BCM and disseminated nationally through Carolina Biological Supply. The aims of the project are to: (1) expand understanding by children (ages 5-10) and their caregivers of the health consequences of human induced changes in the environment and increase their abilities to make healthful decisions through informal self-directed activities in a museum setting; (2) encourage linkages between formal and informal education settings by providing a model for connecting classroom-based curricula to museum-based exhibits and informal learning programs, based on the My Health My World educational materials and the My Home Planet Earth exhibit and support programs; (3) help parents provide additional environmental health-related informal learning experiences for their children, and promote awareness of science and health careers; and (4) partner scientists and educators in the creation of a model environmental health sciences exhibit and support program for the field of family-centered informal learning. The exhibit and support programs are in the process of touring 18 youth museums, science centers and health museums over six years of travel (2002-2008). An estimated 1.5 million visitors will participate in the project by the end of the tour in 2008. In addition to these visitors, 1,000 families will participate in MHPE Family Learning Events, 9,000 teachers will be introduced to the My Health My World curriculum-360 of whom will participate in a day long MHMW workshop, 36 scientists will partner with host museums to enhance the learning and community impact of the project, and 180,000 children will visit the xhibit during a school field experience.