The University of Pittsburgh's Center for Learning in Out-of-School Environments (UPCLOSE), the Carnegie Museum of Natural History, and the Robotics Institute at Carnegie Mellon University are building an open access cyberlearning infrastructure that employs super high-resolution gigapixel images as a tool to support public understanding, participation, and engagement with science. Networked, gigapixel image technology is an information and communication technology that creates zoomable images that viewers can explore, share, and discuss. The technology presents visual information of scientifically important content in such detail that it can be used to promote both scientific discovery and education. The purpose of the project is to make gigapixel technology accessible and usable for informal science educators and scientists by developing a robotic imaging device and online services for the creation, storage, and sharing of billion-pixel images of scientifically important content that can be analyzed visually. Project personnel are conducting design activities, user studies, and formative evaluation studies to support the development of a gigapan technology platform for demonstration and further prototyping. The project builds on and leverages existing technologies to provide informal science education organizations use of gigapixel technology for the purpose of facilitating three types of activities that promote participatory learning by the public--Public Understanding of Science activities; Public Participation in Scientific Research activities; and Public Engagement in Science activities. The long-terms goals of the work are to (1) create an accessible database of gigapixel images that informal science educators can use to facilitate public-scientist interactions and promote participatory science learning, (2) characterize and demonstrate the affordances of networked gigapixel technologies to support socially-mediated, science-focused cyberlearning experiences, (3) generate knowledge about how gigapixel technology can enable three types of learning interactions between scientists and the public around visual data, and (4) disseminate findings that describe the design, implementation, and evaluation of the gigapixel platform to support participatory science learning. The project\'s long-term strategic impacts include guiding the design of high-resolution images for promoting STEM learning in both informal and formal settings, developing an open educational resource and science communication platform, and informing informal science education professionals about the use and effectiveness of gigapixel images in promoting participatory science learning by the public.
The Cornell Lab of Ornithology, the Institute for Learning Innovation, and several environmental organizations are merging existing bird-focused citizen science programs with gardening and online social networking activities to provide older adult learners (age 35 and up) with opportunities to investigate the environmental impacts of implementing landscaping and carbon-reducing practices in their backyards, community gardens, and parks. The YardMap Network project is developing learning resources that will help gardeners, birders, and novices learn bird-habitat improving and carbon-reducing living practices by joining a nationwide ecological social network composed of more than 100,000 people. The goal of the project is to create online learning communities that move people from basic and intermediate levels ecological understanding to advanced levels of understanding by providing experiences whereby YardMappers learn about, design, evaluate, share, and invent conservation practices in their backyards and other green spaces. While developing the network, the project will gather data to test the hypothesis that coupling citizen science activities with social networking technologies to create online learning communities improves participants\' understanding of project-relevant science, technology, engineering, and mathematics. The project will track learning outcomes using standard evaluation techniques and by following individuals\' routes of entry, network interactions, mapped garden practices, carbon-neutral behaviors, and their bird monitoring activities. YardMappers will divide naturally into treatment groups, creating a quasi-experimental design to test the importance of social networking for basic, intermediate, and advanced learning outcomes.
The National Audubon Society, the National Association of Retired and Senior Volunteer Program, Earth Force, and the U.S. Fish and Wildlife Service are identifying strategies and supports that move citizen science volunteers up the ladder of engagement from contributory to collaborative to co-creative participants in scientific research. The Citizens, Science, and Conservation project is testing strategies for engaging senior citizens (ages 60+) and underserved youth (ages 16-18) residing in Illinois, North Carolina and California in conservation-focused citizen science projects. This inter-generational project is engaging 45 seniors and 45 youth from three communities located near important bird areas (IBAs) in bird conservation activities and studying how to immerse them together in authentic scientific research. The goals of the project are to (1) learn how to better recruit and sustain deeper relationships with seniors and youth, (2) facilitate the roles seniors and youth can play as collaborators in field research and conservation science, (3) study ways that seniors and young people, as well as scientists and non-scientists, might interact more effectively while in training and in the field, and (4) study the cognitive and affective impacts of such collaborations upon both volunteers and professionals. Evaluation data on implementation, impact, and scale-up are being collected on three comparison groups of citizen scientists (new, core, and model). Audubon plans to disseminate a plan for implementing senior-youth paired collaborative and co-created citizen science programs to 2,100+ IBA programs in 42 states, 50+ nature centers and its 480 local chapters.
This project will be conducted by a team of investigators from North Carolina State University. The principal investigator proposes to examine the characteristics, motivations, in and out-of-school experiences, informal science activities, and career trajectories of 1000 science hobbyists and "master hobbyists." Master hobbyists are individuals who have developed science expertise and spend considerable free time engaging in science as a leisure activity. Master science hobbyists are found across most areas of science (e.g. birdwatchers, amateur astronomers). This research will determine who these individuals are, their career pathways, how they engage in science activities and what motivates, sustains, and defines their science interests. One of the particular goals of this research is to develop new understandings of how science hobby interests develop for women and underserved minorities. In the proposed research investigators will use the results of interviews and surveys to identify contextual factors that influence the motivational processes that, in turn, influenced choices of careers and contribute to ongoing choices in hobby and citizen science activities. Of interest in this study is how citizen scientists who are also serious hobbyists differ from master science hobbyists. Research on citizen scientists has shown that this group is highly motivated by collective motives (such as a desire to help others and further science), whereas this may not be the case with the master science hobbyist. Two groups will be sampled: a) birdwatchers and b) amateur astronomers. This sampling model will allow investigators to contrast their findings by: 1) those who have selected a science career versus those that did not select a science career, 2) those who participate in citizen science activities and those that do not, and 3) those who are birdwatchers (greater mathematical components) and those who are amateur astronomers (lesser mathematical components). Additional coding and analyses will examine any differences in the evolution of bird watching and astronomy hobbies. The results of this research will be examined in light of existing motivational and sociocultural models of career selection. This research will document differences in the perceived motivational elements that influenced master science hobbyists/citizen scientists to choose a science career or not. The results can inform federal, state, and local policies for supporting youth and adults engaged in free choice learning. Results of this research will inform the design of intervention/recruitment programs and ISE outreach initiatives. Potential audiences include ISE institutions (e.g. museums and science centers), organizations with links to STEM (e.g. scouts, boys/girls clubs) and pre- and college initiatives that seek to influence career choices and life-long science interests. The proposed cross-disciplinary approach will promote new understandings of complex issues related to motivation, retention, career selection, leisure activities, engagement with formal and informal educational environments, gender and ethnicity, communities of practice and changes in interests over time. Members of the advisory board have expertise in assessment and measurement and will work closely with the project team to conduct a detailed examination of methodologies and analyses at all phases of the project.
Cornell University, Seavoss Associates, Inc. and the Smithsonian Environmental Research Center (SERC) developed two citizen science projects and related research: 1) "Project Nestwatch" including "Virtual Nestwatch," an online exhibit and data collection project that enables individuals to participate in data collection from their home computers; 2) "National Nest Registry," field-based and focused on species that participants may find in their backyard or local community. The projects increased public understanding of bird biology, ecology, life cycles, environmental issues and the research process while encouraging careers in science.
Cornell University will utilize planning grant funds to conduct front-end research to inform a major citizen science effort targeting Latino families in six major US cities. Partnering organizations include the New York Restoration Project (New York), Aspira of Illinois, Inc. (Chicago), Youth Policy Institute (Los Angeles), Chicanos Por la Causa, Inc. (Phoenix), the Children's Museum of Houston (Houston), and Aspira of Florida, Inc. (Miami) Project deliverables for the planning effort include culturally responsive research and subsequent dissemination of findings. The Garibay Group will create profiles of partner communities and conduct focus groups with potential project participants to examine attitudes towards science, interest in participatory science activities, tools (online bird identification, data entry, and data visualization tools), and technologies. The research will also include an analysis of existing data from interviews previously conducted by project partners. The research results will provide insights into effective strategies for engaging Latino audiences in citizen science efforts.
The Parents Involved/Pigeons Everywhere (PIPE) project is a collaboration between KCTE-Community Television of Southern California, The American Association for the Advancement of Science, and the Cornell Laboratory of Ornithology. They are developing a three-year model project to engage parents in science education with their children through Project PigeonWatch, a citizen-science program run by Cornell University. The PIPE project will develop videos and written materials for use in a series of parent workshops designed for libraries and community science centers. The materials and workshops will be targeted to low-income parents with children in grades three through five and will be tested at 27 pilot sites around the country. A PIPE leader's Web Site will link all of the pilot sites. At the end of the pilot stage, the video and print materials will be widely available and the applicants will produce a publication that indicates strategies for using and building on PIPE and will provide assistance to new sites that wish to implement the program.
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TEAM MEMBERS:
Cynthia RuizDavid CrippensJudy KassRick Bonney
Led by Washington University, Making Natural Connections: An Authentic Field Research Collaboration (DRL-0739874), is a series of two field-based informal science education programs in environmental biology targeting St. Louis area teenagers. The project aims for engagement of science research institutions and career scientists in the execution of informal science education programming, bringing real and dynamic context to the science content and allowing for deep and transparent career exploration by teenage participants. Project goals include (1) providing a model for integration of informal science education into the research and restoration projects at biological field stations and nature reserves, (2) communicating current environmental biology research to audiences outside the research community, and (3) influencing the entry of pre-college students into the science career pipeline. The project is a collaborative partnership between Washington University’s Tyson Research Center and the Missouri Botanical Garden’s Shaw Nature Reserve. The Shaw Institute for Field Training (SIFT) program trains St. Louis area high school students in scientific exploration of the natural world at Shaw Nature Reserve. During a one-week training session in June, teens are introduced to a variety of Missouri ecosystems and gain skills necessary to conduct field research, including plant and animal identifications, biotic sampling and census techniques, testing of abiotic factors, and training in the use of maps, compass and GPS. During the rest of the summer and school year, teens are involved in important research and restoration activities at Shaw, Tyson Research Center and other field research sites in the St. Louis area. Fieldwork opportunities may include invasive species management, prairie reconstruction, plant and animal inventories, and prescribed burns. The Tyson Environmental Research Fellowships (TERF) program places high school students as summer interns on ecology and environmental biology research teams at Tyson Research Center. Selected teen participants have successfully completed the SIFT program and apply their field skills to ongoing research projects at Tyson and other partnering research sites. During the summer, the four-week program provides teens with exposure to a variety of field science experiences and skills. TERF teens work alongside university scientists, post-doctoral researchers, graduate students and undergraduate students. The TERF program provides a cultural apprenticeship in university-based environmental biology research and training in scientific communication. It is an advanced summer experience modeled on the undergraduate research internships offered at Tyson. During the following school year, participants work on posters and presentations for symposia at Washington University and Tyson and at community fairs, and their posters are displayed at Shaw Nature Reserve. A national dissemination workshop for informal science educators, high school biology teachers, and research scientists provides the necessary materials and background to replicate the project design in other locales. The summative evaluation will address impacts on teenage participants (engagement, cognitive and emotional support, competence, career viability, experiential learning) and professional audiences (implementation of teen program, program components, impacts on mentoring scientists). The strategic impact of this project results from the integration of teenage immersion experiences into research activities at a university-based facility. This model of informal science training activities leading into participation in authentic research may be transferable to other STEM disciplines.
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TEAM MEMBERS:
Phyllis BalcerzakPeter RavenSusan FlowersKim Medley
This National Science Foundation Informal Science Education project was a "Citizen Science" weather and climate observing program focused on the Central Great Plains region of the U.S. Volunteers of all ages, primarily self selected, equipped with simple and low cost instruments for measuring rain, hail and snow, were recruited, trained and equipped to help measure and report precipitation. This region of the country is well known for its extreme and highly variable climate with strong seasonal cycles, dramatic day to day weather changes, drought vulnerability, as well as the propensity for
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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United States Department of AgricultureUniversity of Rhode Island Cooperative ExtensionSalish-Kootenal CollegeUniversity of Wisconsin ExtensionLinda Green
Each year, more than 200 volunteers donate over 7,000 hours of their time, skills, and enthusiasm to reach Jug Bay Wetlands Sanctuary's goals in environmental education, scientific research, and the protection of the vulnerable wetland ecosystem. This is the equivalent of a $100,000 donation. These volunteers have a variety of backgrounds---teachers, librarians, construction workers, chemists, college and high school students, and yes, some are even professional wetland ecologists! What they have in common is an interest in nature, pleasure in being outdoors, and a desire to explore the ecology of natural habitats such as wetlands and forests. At the Sanctuary, they collect water samples . . . clear trails . . . weigh turtles . . . guide visitors on nature walks . . . draw maps . . . lead canoe trips . . . make posters . . . seine for fish . . . host the Visitor Center on weekends . . . and so much more!
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Jug Bay Wetlands SanctuaryFriends of Jug BayChesapeake Bay National Estuarine Research Reserve SystemLindsay Hollister