This award is funded in whole or in part under the American Rescue Plan Act of 2021 (Public Law 117-2).
Zoos and aquariums have been offering programming, events, and visit accommodations to autistic individuals for several years. While these efforts can provide great experiences, they are focused more on accommodation and the outward-facing guest experience than inclusion. Lack of inclusion features in design, programming, and representation amongst zoo and aquarium representatives, ultimately limits full inclusion and adds to a sense in autistic individuals of not belonging and not being welcomed. To develop a fully inclusive experience for autistic individuals, this project will develop an evidence-based framework of inclusive practices for zoos and aquariums and build a community of practice around inclusion broadly. The project brings together researchers from Oregon State University, Vanderbilt Kennedy Center’s Treatment and Research Institute for Autism Spectrum Disorders, and the Association of Zoos and Aquariums. Researchers will create and investigate the extent and ways in which a research-informed framework and associated tools (i.e. case studies, discussion guides, self-guided audits, etc.) and strategies support science learning for autistic individuals, and help practitioners expand access and inclusion of autistic audiences beyond special events or the general visit experience by applying inclusive practices for programs, exhibit development, internships, volunteer opportunities, and employment. To maximize impact, the project will develop and expand a network of early adopters to build a community of practice around inclusive practices to develop fully inclusive zoo and aquarium experiences for all individuals.
The project will investigate 4 research questions: (1) In what ways and to what extent are zoos and aquariums currently addressing access and inclusion for autistic individuals? (2) How do staff in zoos and aquariums perceive their and their institution’s willingness and ability to address access and inclusion for autistic individuals? (3) What is a framework of evidence-based practices across the zoo and aquarium experience that is inclusive for autistic individuals, and what associated tools and strategies are needed to make the framework useful for early adopters? And (4) to what extent and in what ways does a research informed framework with associated tools and strategies engage, support, and enhance an existing community of practitioners already dedicated to addressing autistic audiences and promote inclusive practices at zoos and aquariums for autistic people? The project is designed as two phases: (1) the research and development of a framework of inclusive practices and tools for supporting autistic individuals and (2) expanding a network of early adopters to build a community of practice around inclusive practices and an overall strategy of implementation. The framework will be informed through a state of the field study across the zoo/aquarium field that includes a landscape study and needs assessment as well as a review of literature that synthesizes existing research across disciplines for developing inclusive practices for autistic individuals in zoos and aquariums. The team will also conduct online surveys and focus groups to gather input from various stakeholders including zoo and aquarium employees and practitioners, autistic individuals, and their social groups (e.g., family members, peers, advocacy organizations). The second phase of the study will focus on sharing the framework and tools with practitioners across the zoo/aquarium field for feedback and reflection to develop an overall strategy for broader implementation and expanding the existing network of zoo and aquarium professionals to build a community of practice dedicated to the comprehensive inclusion of autistic individuals across the full zoo and aquarium experience. The results will be disseminated through conference presentations, scholarly publications, online discussion forums, and collaborative partners’ websites. The project represents one of the first of its kind on autistic audiences within the zoo and aquarium context and is the first to look at the full experience of autistic patrons to zoos and aquariums across programs/events, exhibits, volunteering, internship, and employment opportunities. A process evaluation conducted as part of the project will explore how the approach taken in this project may be more broadly applied in understanding and advancing inclusion for other audiences historically underserved or marginalized by zoos and aquariums.
This Research in Service to Practice project is supported by the Advancing Informal STEM Learning (AISL) program.
Millions of people around the world watch live streaming wildlife cams, but they aren’t just watching: they are asking questions, trading information, and witnessing events that may be undocumented in the scientific literature. The goal of Bird Cams Lab was to design a digital space and framework enabling online communities to engage in a co-created scientific inquiry process utilizing wildlife cams to answer bird-related questions of common interest. To achieve this goal, the project engaged participants at every stage of the research process—including observation, generating and selecting
This document describes the summative project evaluation of 5 annual cohorts of STE(A)M teachers, mostly from California, Florida, and New Mexico participating in out-of-school authentic research experiences collecting fossils and learning about geology, biology, and the natural history along the Panama Canal, and their experiences with museums and research collections. The STEM content of this project is based on the Great American Biotic Interchange (GABI) of animals and plants across the Isthmus of Panama over the past 5 million years. This report also describes the efficacy of sustained
This presentation "Revealing Impacts: How does one long-term, statewide field trip program influence a community's learning ecosystem?" was shared as showcase at the 2021 Connected Learning Summit (https://app.clowdr.org/conference/clsummit2021/) held virtually from July 7-30, 2021.
In the showcase session, we shared details of an NSF funded collaborative project between the Gulf of Maine Research Institute, Oregon State University and TERC to understand how a longstanding, statewide field trip program, LabVenture, influences a community’s learning ecosystem. The project uses the construct
In 2006, the U.S. Botanic Garden (USBG) decided to conduct an institution-wide study of their visitors—why they come to the Botanic Garden, how they utilize the space, their level of satisfaction with the experience, and overall effectiveness of the USBG’s exhibitions and interpretation—in order to provide input to a strategic planning process that will align its living collections with its educational mission. To date, the only existing data characterizing USBG visitors was gathered in the early 1990s. Since then, the USBG has undergone a major transformation, including complete renovation of
Informal learning institutions (ILIs) create opportunities to increase public understanding of science and promote increased inclusion of groups underrepresented in Science, Technology, Engineering, and Math (STEM) careers but are not equally distributed across the United States. We explore geographic gaps in the ILI landscape and identify three groups of underserved counties based on the interaction between population density and poverty percentage. Among ILIs, National Park Service lands, biological field stations, and marine laboratories occur in areas with the fewest sites for informal
Final External Evaluation Report for Informal STEM Learning at Biological Field Stations, an NSF AISL Exploratory Pathways project, which studied the pedagogical and andragogical characteristics of informal educational outreach activities at field stations. This report summarizes the project team’s major research activities and the contextual factors that supported that work.
Appendix includes interview protocol.
Planning for the reinterpretation of the museum’s Egyptian collection that would explore the intersection of human and natural histories in ancient Egypt.
Building on Carnegie Museum of Natural History’s (CMNH) current NEH Digital Projects for the Public Discovery Grant, this exhibition grant will allow CMNH to begin planning for its multi-phase exhibition, Egypt on the Nile. As part of the project, CMNH will: convene a team of expert scholars and scientists to refine current research themes and generate new humanities and scientific knowledge through which the public can connect their contemporary experiences with the human and natural history of ancient Egypt; form and consult a community focus group for audience input; identify anthropological and natural sciences collections for the exhibition; and evaluate CMNH exhibitions, conservation, and storage considerations and costs. To carry out these goals, the Project Director will lead committees in a series of meetings and two workshops held in Pittsburgh to produce exhibition designs and a draft script along with plans for outreach, marketing, and evaluation of the final exhibition.
The Swinomish Indian Tribal Community developed an informal environmental health and sustainability (EHS) curriculum based on Swinomish beliefs and practices. EHS programs developed and implemented by Indigenous communities are extremely scarce. The mainstream view of EHS does not do justice to how many Indigenous peoples define EHS as reciprocal relationships between people, nonhuman beings, homelands, air, and waters. The curriculum provides an alternative informal educational platform for teaching science, technology, engineering, art, and mathematics (STEAM) using identification, harvest
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. This project will research core methods of science documentary film production and impact on audience engagement and understanding. The findings from this study will be used to later produce a film on how the CRISPR genome editing technology will shape agriculture, ecology, and the natural world. The research study and film to be produced will be a collaboration of science communication practitioners and researchers. The intended outcomes are to improve effective science filmmaking and increase impact on audiences. Many people rely on documentary film and videos for science information outside of formal learning environments. Research has shown that video programming can reduce knowledge gaps between those of higher and lower levels of education. But there is little research with findings about what makes a particular style of storytelling effective for engagement and learning outcomes. A recent report of the National Academies of Sciences, Engineering and Medicine identified a significant shortage of social science research with directly applicable lessons for filmmakers. This project addresses this need by providing new frameworks for research and methods to produce science documentaries. Project partners are iBiology, a producer of video resources for learning, and science communication researchers at the University of Wisconsin-Madison.
This project will examine two key questions: 1) In a science documentary film, how does the diversity of the scientists profiled and the use of a narrator shape audiences? perception of content and scientists? and 2) What are effective methods in science filmmaking to visualize the invisible (i.e. explain scientific phenomena that are not easily visualized)? The project begins by testing a recently produced film, Human Nature, that tells the story of the discovery of CRISPR (genome editing), told by the scientists who led the effort. Phase 1 testing will include screenings, focus groups, and experiments run through Amazon Mechanical Turk to test what features of the film (editorial voice and visualization styles) are most effective for communicating scientific content. In Phase 2 video test clips will be produced using a combination of narration and visualization strategies. An experimental design run through Amazon Turk will randomly assign participants to watch a clip using different combinations. Researchers will use this data to parse out what effect seems to be related to particular narration and visualization choices. This quantitative experimental data will be supplemented by qualitative data from focus groups with participants with a diverse range of science experience and demographic backgrounds. Researchers will design a survey-embedded experiment with a U.S. nationally representative sample to see how well the findings translate and change in a broader population.
This Innovations in Development award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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TEAM MEMBERS:
Dietram ScheufeleSarah GoodwinElliot Kirschner
The science museum field is only starting to look at ways of providing visitors with opportunities for the authentic observation of complex, real-time biological phenomenon. The project will develop and research a microscope-based exhibit with pedagogical scaffolding (i.e., helpful prompts) that responds to visitors' changing views as they explore live samples and biological processes. As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches, and resources for use in a variety of settings. Scientific observation is a systematic, complex practice, critical in the biological sciences where investigation is heavily reliant on visual data. Using techniques and equipment similar to what scientists themselves use, the exhibit will enable visitors to see and explore the complex, dynamic visual evidence that scientists themselves see. The exhibit will use new and more affordable high-resolution imaging technology and image analysis software to make microscopic images of living organisms visible. Armed with "smart" (i.e., computer-assisted) pedagogical scaffolding that supports inquiry, the project will develop exhibits that help informal learners bridge the gap between everyday observation and authentic scientific observation. The platform will incorporate strategies grounded in prior work on learning through observation that will be applicable to a range of biological content and live specimens. The project platform will be designed for use to a variety of informal science learning environments, including nature centers and mobile laboratories as well as interactive science centers. The project platform itself, including the microscope, related imaging, and learning technologies will be relatively inexpensive, bring it within reach of small science museum and schools. The exhibit will directly engage thousands of learners who visit the Exploratorium and will reach underserved audiences through partnerships with BioBus, a mobile unit that serves the New York City area, and the Noyo Center of Marine Science, a science museum that serves rural areas in Northern California.
The project will move beyond simulation and modeling of complex visual phenomena and provide learners with experiences using real visual evidence that can deeply engage them with the content and practice of biological science. By grounding the work in prior theoretical and empirical findings, project research will refine and broaden understanding of scaffolding strategies and their effect on informal science learning at exhibits. Project research will investigate how the project supports learners (1) asking productive questions (i.e., those answerable through observations) that are meaningful to them, (2) interpreting what they see, and (3) connecting their observations to biological concepts to build a more coherent understanding of the content and practice of biological disciplines. A series of comparative studies across and within venues, specimens, and content will assess engagement and scaffolding strategies, with a particular focus on appropriately integrating computational imaging techniques in a way that is responsive to the interests and needs of different venues' audiences. Project research will contribute important knowledge on ways to support informal learners who are engaged in authentic observation of biological phenomenon. Project research findings and technology resources will be widely shared with informal STEM researchers and practitioners concerned with engaging the public in current research in biology, as well as those interested in supporting observation in other disciplines (e.g., meteorology, ocean science, environmental science) that rely on an evidence base of live, dynamic, complex imagery.
This Innovations in Development award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
This summative evaluation describes the FOSSIL (Fostering Opportunities for Synergistic STEM with Informal Learners) project activities and outcomes. Over the six-year funding period of this project, we developed a community of practice of more than 10,000 participants (via our web site, social media, and app) who share an interest in fossils and paleontology. This report describes the success and challenges of the FOSSIL project.