A wide gap exists between what scientists and rural farmers know. The rapid advancements in digital technology are likely to widen this gap even further. At the farmers' level, this knowledge gap often translates into poor and inefficient management of resources resulting in reduced profits and environmental pollution. Most modern rice cultivars can easily yield more than 5 tons per hectare when well managed, but millions of farmers often get less than 5 tons using the same production inputs.
This paper focuses on an early stage of developing curricular materials to support students' learning of scientific inquiry. The materials being developed and tested, called Classroom FeederWatch (CFW), aimed to support science inquiry and were developed by a collaborative team of private curriculum developers and scientists (ornithologists). Inquiry dimensions were influenced at the outset by the newly released National Science Education Standards (National Research Council, Washington, DC: National Academy Press, 1996) and by prior successful experiences of ornithologists with inquiry
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TEAM MEMBERS:
Deborah TrumbullRick BonneyNancy Grudens-Schuck
In this article we describe an instance of free-choice learning in the context of an eelgrass mapping and stewardship project (the Project) that covers over 500 kilometers of coastline in British Columbia, Canada, and involves 20 volunteer groups. In this ethnographic case study we sought to (a) explicate the relationship between individual and collective learning in this free-choice setting and (b) understand how a network of Project participants could both constitute a free-choice learning setting and support such a setting. We articulate a dialectic relationship between individual and
"Birds in the Hood" or "Aves del Barrio" builds on the Cornell Laboratory of Ornithology's (CLO) successful Project Pigeon Watch, and will result in the creation of a web-based citizen science program for urban residents. The primary target audience is urban youth, with an emphasis on those participating in programs at science centers and educational organizations in Philadelphia, Tampa, Milwaukee, Los Angeles, Chicago and New York. Participants will develop science process skills, improve their understanding of scientific processes and design research projects while collecting, submitting and retrieving data on birds found in urban habitats. The three project options include a.) mapping of pigeon and dove habitats and sightings, b.) identifying and counting gulls and c.) recording habitat and bird count data for birds in the local community. Birds in the Hood will support CLO's Urban Bird Studies initiative by contributing data on population, community and landscape level effects on birds. Support materials are web-based, bilingual and include downloadable instructions, tally sheets, exercises and results. The website will also include a web-based magazine with project results and participant contributions. A training video and full color identification posters will also be produced. The program will be piloted at five sites in year one, and then field-tested at 13 sites in year two. Regional dissemination and training will occur in year three. It is anticipated that 5,000 urban bird study groups will be in place by the end of the funding period, representing nearly 50,000 individuals.
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TEAM MEMBERS:
Rick BonneyJohn FitzpatrickMelinda LaBranche
Predicting the spread of non-native organisms in the oceans is difficult. Usually there is not enough data on the introduced species over a large enough geographic scale and for a long enough time to develop and test mathematical models. Collecting adequate data takes many people working together to identify a particular species and accurately record information. This project seeks to demonstrate that a large group of people working together can collect enough scientifically valid data for predicting the spread of recently introduced non-native crab species. This project is designed to accomplish two goals. Firstly, it aims to train and validate the efforts of citizen scientists to collect data. Secondly, the data will be used to develop an invasion probability model for two crab species, European green crab (Carcinus maenas), and Asian shore crab (Hemigrapsus sanguineus).
Volunteer “Grunion Greeters” experience a grunion run and witness the remarkable behavior of the silvery little fish as they come completely ashore to spawn. Volunteers monitor local California beaches and collect basic information during a grunion run. The data are used by Pepperdine University researchers conducting studies on these charismatic fish and to ensure their protection on the beach.
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TEAM MEMBERS:
Karen MartinNational Marine Fisheries Service
The Invaders of Texas Program is an innovative campaign whereby volunteer "citizen scientists" are trained to detect the arrival and dispersal of invasive species in their own local areas. That information is delivered into a statewide mapping database and to those who can do something about it. The premise is simple. The more trained eyes watching for invasive species, the better our chances of lessening or avoiding damage to our native landscape.
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Lady Bird Johnson Wildflower CenterTexas Forest ServiceTexas Parks and Wildlife DepartmentTravis Gallo
The Mashantucket Pequot Museum and Research Center will implement a three-year, research-based community program entitled "Archeology Pathways for Native Learners." This comprehensive program consists of four components or pathways that are designed to increase participation of Native Americans in science. Pathway #1 invites students and teachers from New Haven Public Schools to participate in archaeology field research, which expands to include youth throughout the northeastern US. Students will be involved with site excavation, documentation and analysis of findings in an archaeology laboratory, working with scientists to interpret findings, and communicating the results of research to their peers and through the project Web site. Concurrently, in the first year of the project, Pathway #2 will focus on the expansion of museum programs for youth and community members in addition to the creation of related professional development programs for educators. Pathway #3 calls for replication of the research model at Navajo sites in New Mexico and Arizona during year three, while Pathway #4 emphasizes leadership training workshops for Native Americans from over 50 tribal communities. Workshops will focus on the creation of research-based youth programs in native communities across the country, using a train-the-trainer model to disseminate the model. It is anticipated that this project will reach more than 60,000 youth and community members, in addition to over 450,000 individuals via the Archeology Pathways website.
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TEAM MEMBERS:
Kevin McBrideMarc BlosverenElizabeth TheobaldGeoffrey BrownTrudie Lamb-Richmond
The "Environmental Science Information Technology Activities (ESITA)" based at the Lawrence Hall of Science (LHS) at UC-Berkeley is a three-year, youth-based proposal that seeks to engage 144 inner-city ninth and tenth graders in learning experiences involving environmental science and information technology. The goal of the project is to develop, field-test, and disseminate an effective student-centered, project-based model for increasing understanding and interest in information technology. Program components included an afterschool program, summer enrichment and an internship program. An extensive partnership involving community based agencies, environmental science organizations, a local high school and industry support the project by serving as host sites for the afterschool program and internship component. Student participation in project-based, IT-dependent research activities related to environmental science will occur year round. Students will research air and water quality in their local communities and study attitudes toward -- and use of -- information technology among their peers. The focus of the research activities is based on the results of a students-needs assessment. Students participate in the program over a two-year period and are expected to receive at least 240 total contact hours. The afterschool program serves as the project's principal mechanism for content delivery. The five-month afterschool program consists of inquiry-based mini-courses on the following topics: Information Technology tools and concepts, earth and physical science, data compilation and modeling, and publication of research results. The summer enrichment component encompasses a series of workshops at LHS; excursions to IT-related exhibits, environmental facilities, and IT-based companies; and an annual student robotics fair. During the second year of program participation students will complete 12-month internships to support the application of concepts and skills learned the first year. The LHS Student Geoscience Research Opportunities program will serve as a model host site for the program. Stipends are provided throughout the program to encourage student participation and retention.
Coastal Communities for Science: A Bering Sea Partnership is a 3-year program of collaboration among the WWF-US, four Alaska native rural communities and regional scientists investigating the ecology of the Bering Strait. Its primary purpose is to advance youth interaction with science and it proposes to achieve this by engaging young people from high school and beyond to conduct research with scientists. The project which involves training community youth on science and research methods, capacity building of informal educators in these rural communities to lead and encourage field-based programs, inclusion of community elders in the overall learning and communication of science concepts and the creation of a model of collaboration. The science content, an amalgam of community interest and researcher interest, is grounded in local environmental and economic issues. With WWF's support and electronic technology, this has the potential of being a model project that is broadly disseminated at local, regional and national levels.
Project Butterfly WINGS is a three-year project targeting 4th-8th grade participants in 13 Florida counties. This project includes the use of the 4-H network as a partner to recruit participants. It builds on the development of student-scientist partnerships to create an environment where information, data and ideas can be exchanged. This project will focus on collecting data on butterflies and the environments/habitats the butterflies choose to visit. This project brings together several important elements to present an interactive, authentic, research-based SSP activity supported through an established network of ISE providers, educators and community-based organizations. Based on solid research and knowledge about ISE approaches, the project has strong content connections and a well-designed structure. An interactive web-site will provide opportunities for participants to interact with each other and with participating scientists, and to experience firsthand some of the most interesting aspects of engaging in scientific inquiry. WINGS has the potential to create a network of young people who will be more aware of issues related to biodiversity and the environment. Through its model approach and participant outcomes, "Project Butterfly WINGS" is positioned to make a difference in the ISE field and in the lives of its participants.
Understanding the Science Connected to Technology (USCT) targets information technology (IT) experiences in a comprehensive training program and professional support system for students and teachers in science, technology, engineering and mathematics (STEM). Participants have opportunities to assume leadership roles as citizen volunteers within the context of science and technology in an international watershed basin. Training includes collection, analysis, interpretation and dissemination of scientific data. BROADER IMPACTS: Building on a student volunteer monitoring program called River Watch, the USCT project enables student scientists to conduct surface water quality monitoring activities, analyze data and disseminate results to enhance local decision-making capacity. The project incorporates state and national education standards and has the potential to reach 173 school jurisdictions and 270,000 students. USCT will directly impact 81 teachers, 758 students and 18 citizen volunteers. The USCT project provides direct scientist mentor linkages for each participating school. This linkage provides a lasting process for life-long learning and an understanding of how IT and STEM subject matter is applied by resource professionals. Broader impacts include accredited coursework for teachers and students, specialized training congruent with the "No Child Left Behind Act of 2001," and building partnerships with Native American schools. INTELLECTUAL MERIT: The USCT project is designed to refocus thinking from static content inside a textbook to a process of learning that includes IT and STEM content. The USCT engages students (the next generation of decision makers) in discovery of science and technology and expands education beyond current paradigms and political jurisdictions.