This project will expand and enhance an initiative that offers zoos, aquariums, and science museums the market research they need to engage and motivate the public on issues related to the ocean and climate change. The three-year project will measure changes in public awareness and action on ocean and climate-related issues. It will integrate these research findings into recommendations offered to staff working at zoos, aquariums, and science museums as well as to the ocean conservation community and provide professional development for staff members at these institutions in order to support and shape public outreach efforts that connect climate change, the ocean and individual actions, especially among our nation's youth.
While the opportunity to engage in scientific reasoning has been identified as an important aspect of informal science learning (National Research Council, 2009), most studies have examined this strand of science learning within the context of physics‒based science exhibits. Few have examined the presence of such activity in conjunction with live animal exhibits at zoos and aquariums. A video study of 41 families at four touch‒tank exhibits, where visitors can observe and interact with live marine species, revealed that families engaged in making claims, challenging claims, and confirming
The University of California, Davis Tahoe Environmental Research Center (TERC), UC Davis W.M. Keck Center for Active Visualization in the Earth Sciences (KeckCAVES), ECHO Lake Aquarium and Science Center (ECHO), UC Berkeley Lawrence Hall of Science (LHS), and the Institute for Learning Innovation (ILI) will study how 3-D visualizations can most effectively be used to improve general public understanding of freshwater lake ecosystems and Earth science processes through the use of immersive three-dimensional (3-D) visualizations of lake and watershed processes, supplemented by tabletop science activity stations. Two iconic lakes will be the focus of this study: Lake Tahoe in California and Nevada, and Lake Champlain in Vermont and New York, with products readily transferable to other freshwater systems and education venues. The PI will aggregate and share knowledge about how to effectively utilize 3-D technologies and scientific data to support learning from immersive 3-D visualizations, and how other hands-on materials can be combined to most effectively support visitor learning about physical, biological and geochemical processes and systems. The project will be structured to iteratively test, design, and implement 3-D visualizations in both concurrent and staggered development. The public will be engaged in the science behind water quality and ecosystem health; lake formation; lake foodwebs; weather and climate; and the role and impact of people on the ecosystem. A suite of publicly available learning resources will be designed and developed on freshwater ecosystems, including immersive 3-D visualizations; portable science stations with multimedia; a facilitator's guide for docent training; and a Developer's Manual to allow future informal science education venues. Project partners are organized into five teams: 1) Content Preparation and Review: prepare and author content including writing of storyboards, narratives, and activities; 2) 3-D Scientific Visualizations: create visualization products using spatial data; 3) Science Station: plan, design, and produce hands-on materials; 4) Website and Multimedia: produce a dissemination strategy for professional and public audiences; 4) Evaluation: conduct front-end, formative, and summative evaluation of both the 3-D visualizations and science activity stations. The summative evaluation will utilize a mixed methods approach, using both qualitative and quantitative methods, and will include focus groups, semi-structured interviews, web surveys, and in-depth interviews. Leveraging 3-D tools, high-quality visual displays, hands-on activities, and multimedia resources, university-based scientists will work collaboratively with informal science education professionals to extend the project's reach and impact to an audience of 400,000 visitors, including families, youth, school field trip groups, and tourists. The project will implement, evaluate, and disseminate knowledge of how 3-D visualizations and technologies can be designed and configured to effectively support visitor engagement and learning about physical, biological and geochemical processes and systems, and will evaluate how these technologies can be transferred more broadly to other informal science venues and schools for future career and workforce development in these critical STEM areas.
This preliminary report, prepared by New Knowledge Organization Ltd. in collaboration with Pennsylvania State University, summarizes evaluation results from the development of an online and in-person national training program to support the creation of a National Network for Ocean Climate Change Interpretation (NNOCCI). The project also explored whether and how training might prove to be an effective and efficient vector for increased public literacy about ocean climate science at a national level.
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TEAM MEMBERS:
New England Aquarium CorporationJohn Fraser
This study assessed visitor outcomes from attending presentations by members of the National Network for Ocean Climate Change Interpretation [NNOCCI] community of practice at four test aquariums and two control site aquariums where climate change interpretation is delivered by professional environmental educators who have not received NNOCCI training. Four unique self-complete surveys were developed, each collecting comparable demographic data and then each uniquely querying: obligations to act on climate change information for people, animals or the ocean; confidence that actions will result
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TEAM MEMBERS:
New England Aquarium CorporationJohn Fraser
While the opportunity to engage in scientific reasoning has been identified as an important aspect of informal science learning (National Research Council, 2009), most studies have examined this strand of science learning within the context of physics-based science exhibits. Few have examined the presence of such activity in conjunction with live animal exhibits at zoos and aquariums. A video study of 41 families at four touch-tank exhibits, where visitors can observe and interact with live marine species, revealed that families engaged in making claims, challenging claims, and confirming
Presentation on NSF grant DRL-1010938 (Saving Species: Socially-Networked Exhibits for Science Inquiry and Public Action) presented at the CAISE Convening on Sustainability Science and Informal Science Education, February 6th, 2012.
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TEAM MEMBERS:
Christopher Myers
resourceresearchMuseum and Science Center Programs
Presentation on NSF grant DRL-0610409 (Wild Research: A Whole-Zoo Exhibit and Inquiry Program) presented at the CAISE Convening on Sustainability Science and Informal Science Education, February 6th, 2012.
The mission of the Monterey Bay Aquarium is to inspire conservation of the oceans. From 2006 to 2008, Aquarium staff members and consultants conducted a series of qualitative and quantitative studies to assess the extent to which visiting the Aquarium engaged, inspired and empowered visitors to care about and for the oceans. The Inspiring Ocean Conservation (IOC) Project included four phases. During Phase I, the researchers consulted with Aquarium staff and conducted in-depth interviews with visitors to develop a logic model. The model outlined the conservation outcomes that could result from
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TEAM MEMBERS:
Cynthia VernonSteven YalowitzAva FergusonVictoria Macfarlane
The University of Cincinnati Arlitt Child and Family Research and Education will conduct a two-year research investigation to document and understand young children's scientific dialog, interactions, behaviors, and thinking within expressly designed natural play environments called playscapes. Two existing environmental science-focused playscapes will serve as the informal context for the study. Pre-school children and their teachers at early childhood centers, Head Start programs and informal learning institutions such as zoos, nature centers, and museums will participate in the study. The Cincinnati Nature Center and the Cincinnati Playscape Initiative will partner with the University of Cincinnati for this research endeavor. The results of the study are expected to not only address a significant gap in the literature base related to self-directed play and young children\'s scientific thinking within playscapes environments, but the study also has the potential to inform the field more broadly about scientific learning and teaching across informal and formal contexts at the early childhood levels. Nine research questions will frame the study and seek to investigate: (a) children\'s behaviors in intentionally designed playscapes, (b) children\'s scientific thinking in intentionally designed playscapes, and the relationship between access to the playscape environment and children's attitudes about science and their own scientist identities. The study sample includes over 200 children (ages 3-5) will be recruited from local university, child care centers and head start programs. Each child will participate in research activities at one of two test sites, with sixty children participating in research activities at both test sites. As part of the study, the children will visit the test sites at least three different times and will be asked to explore the playscape environments on their own, with other children, and with their teachers. Lavalier microphones will capture the students' self-talk and dialogs with others, as they explore the specially designed playscape environments. Other data collection methods include: behavior mapping, direct observation, dialog analysis, surveys, focus groups, and curriculum-based assessments. A team of researchers, including university faculty and graduate assistants, will employ inductive, deductive, and abductive analytical methods and reasoning to analyze and synthesize the data. Concurrently, an external evaluator at the Evaluation Services Center will employ a mixed-methods approach for the formative, remedial, and summative project evaluations. An ultimate goal of the project is to use the research findings to provide a scientific base for the development of an early childhood approach that promotes scientific thinking and learning within self-directed, informal contexts.
Based on discoveries made from an active research grant, Gruber, colleagues, and students will develop multimedia deliverables that highlight the biofluorescence found in coral reefs. They include development of a multimedia exhibit containing interactive, inquiry-based modules and new videos developed off the Cayman Islands. These deliverables will share the beauty of coral reefs, the source of biofluorescence (fluorescent proteins), and the fundamental importance of coral reefs in shallow marine ecosystems. The STEM content of this project is drawn from the biological sciences, including specific topics such as marine biology, physiology, ecology, and conservation. The exhibit will reach diverse audiences at public aquaria and at the principal investigator's institution. Learning will be studied by an external evaluator through formative assessment. The new science discoveries and related STEM content about coral reef biofluorescence also will be communicated via a web site that enables access by informal learners online. This Communicating Research to Public Audiences project is based on research grant MCB-0920572: Isolation, characterization, and evolution of fluorescent proteins from Indo-Pacific and Caribbean marine organisms.
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TEAM MEMBERS:
David GruberVincent PieriboneCarrie Manfrino