This project aims to advance racial equity in outdoor and environmental science education (OESE) by co-developing, implementing, and studying a replicable model for organizational capacity building and transformation.
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TEAM MEMBERS:
Jedda ForemanCraig StrangValeria Romero
This project builds on an NSF-funded program which engaged youth in the creation of art-science experiences that use the biology and the experiences of migratory birds as a means for communicating the impact of a changing climate.
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TEAM MEMBERS:
Rebecca SafranShawhin RoudbariMary Osnes
This pilot and feasibility project will explore whether participation in informal science initiatives like citizen science, which is a form of Public Participation in Scientific Research, can foster or enhance participant attachment to the natural places participants investigate via these programs. The project also examines if participant attachment to place influences the development or application of critical thinking skills among adult learners. Critical thinking skills and the factors that enhance critical thinking skills are important areas of inquiry within the informal STEM learning community. Existing scholarship suggests that three components may be linked: (1) feelings of connection to specific places, (2) intentional exploration and investigation of those places (in this case via citizen science), and (3) understanding of complex socio-ecological systems, which is predicated on critical thinking skills ability. However, the degree to which these aspects are related to each other, the scale at which they occur (local to global), and the specific dimensions of place connection or informal science experiences implicated is not known. Working with the Coastal Observation and Seabird Survey Team (COASST) citizen science program, this project advances collaboration among experts from disparate fields to examine if and how citizen science contributes to increases in connection to place and higher-order critical thinking skills among participants and the potential links between those hypothesized outcomes. The ultimate goal of the project is to inform design of Public Participation in Scientific Research programming that optimizes participant learning, interest, and retention; produces societal outcomes like critical thinking in support of science literacy; and creates high quality data of the scale and grain needed to address questions and issues across the basic-applied science continuum.
This research focuses on the degree to which Public Participation in Scientific Research, specifically citizen science, may foster the presence or intensity of place attachment felt by participants for the sites and settings investigated through these programs and to what extent place attachment may be linked to higher order critical thinking skills among adult learners. A three-pronged mixed-methods research strategy will include: (1) a re-analysis of existing survey and interview data for markers of three-dimensional (personal, social, natural) place attachment as well as critical thinking skills and dispositions; (2) an assessment survey to test for the presence and intensity of place attachment and critical thinking skills; and (3) in-depth interviews to better understand the qualitative nature and development of place attachment and critical thinking skills in a citizen science context. The survey and interview sample will be drawn from participants in the COASST citizen science program and will be stratified into four groups as a function of time engaged in the program, including new, novice, and long-term participants. An independent external advisory board and a committee of visitors comprised of experts in informal science, education, and sense of place will critique and help guide this work. Results are expected to reveal important factors that impact the learning and behavioral outcomes of informal STEM initiatives by probing questions about the essential experiences, exposures, and COASST program components that facilitate deeper critical thinking skills and place attachment. Synthesizing theoretical frameworks from the fields of geography, science education, and educational psychology while testing a unique methodological approach to best measure critical thinking skills and place attachment in an informal citizen science setting will enhance knowledge-building among research and practitioner communities.
In a globalized and increasingly technologically complex world, the ability of citizens to interrogate and interpret scientific evidence, views, and values is critical. That is, scientific literacy is essential for the maintenance of robust and healthy economic, social, and environmental systems in the twenty-first century. Informal science learning fills an important gap in national educational efforts to cultivate a scientifically literate populace as research suggests that formal science training is not always capable of fostering the type of higher order critical thinking skills that undergird such scientific competency. This project aims to strengthen infrastructure and build capacity among informal science practitioners by clarifying whether specific aspects and forms of Public Participation in Scientific Research, especially those relating to people-place connections, are implicated in the development and/or application of critical thinking skills in STEM settings. This effort may expand opportunities to strengthen informal science learning program outcomes, including the cultivation of numerous 21st century skills like information literacy and social skills like conflict management. Through a greater understanding of the individual components that shape informal learning experiences and outcomes, this project also has the potential to support the broadening of participation in STEM fields by providing the groundwork for further research on whether or not underrepresented or traditionally marginalized groups of people experience and/or relate differently to both the "places" most common in citizen science and the practice of informal science programming itself.
Developing solutions to large-scale collective problems -- such as resilience to environmental challenges -- requires scientifically literate communities. However, the predominant conception of scientific literacy has focused on individuals, and there is not consensus as to what community level scientific literacy is or how to measure it. Thus, a 2016 National Academies of Sciences, Engineering, and Medicine report, “Science Literacy: Concepts, Contexts, and Consequences,” stated that community level scientific literacy is undertheorized and understudied. More specifically, the committee recommended that research is needed to understand both the i) contexts (e.g., a community’s physical and social setting) and ii) features of community organization (e.g., relationships within the community) that support community level science literacy and influence successful group action. This CAREER award responds to this nationally identified need by iteratively refining a model to conceptualize and measure community level scientific literacy. The model and metrics developed in this project may be applied to a wide range of topics (e.g., vaccination, pandemic response, genetically-modified foods, pollution control, and land-use decisions) to improve a community’s capacity to make scientifically-sound collective decisions. This CAREER award is funded by the Advancing Informal STEM Learning (AISL) and the EHR CORE Research (ECR) programs. It supports the AISL program goals to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. It supports the ECR program goal to advance relevant research knowledge pertaining to STEM learning and learning environments.
The proposed research will conceptualize, operationalize, and measure community level scientific literacy. This project will use a comparative multiple case study research design. Three coastal communities, faced with the need to make scientifically-informed land-use decisions, will be studied sequentially. A convergent mixed methods design will be employed, in which qualitative and quantitative data collection and analyses are performed concurrently. To describe the i) context of each community case, this project will use qualitative research methods, including document analysis, observation, focus groups, and interviews. To measure the ii) features of community organization for each community case, social network analysis will be used. The results from this research will be disseminated throughout and at the culmination of the project through professional publications and conference presentations as well as with community stakeholders and the general public. The integrated education activities include a professional learning certificate for informal science education professionals and STEM graduate students. This certificate emphasizes high-quality community-engaged scholarship, placing students with partners such as museums, farmer’s markets, and libraries, to offer informal learning programs in their communities. This professional learning program will be tested as a model to provide training for STEM graduate students who would like to communicate their research to the public through outreach and extension activities.
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.
The project will develop and research how an emerging technology, immersive virtual reality (IVR) using head mounted displays (HMDs), can enhance ocean literacy and generate empathy towards environmental issues. Recent advances in design have resulted in HMDs that provide viscerally realistic and immersive experiences that situate participants in underwater or other remote environments. IVR can provide many people with virtual access to these environments, including persons with disabilities, people living away from coastal areas, or those who lack access for other reasons (e.g., low-income families, underserved/underrepresented communities, persons untrained in diving). The project will develop a high quality 360-degree underwater film that includes live action footage, animation, and interactive elements. The IVR experience will take the participant through an immersive underwater journey of a Pacific reef, using realistic visualizations, narrative, and a compelling story to engage participants in learning the ecology and biology of coral reefs, as well as the impacts of climate change and human disturbances on ocean ecosystems. In addition to the IVR ocean journey, the project will integrate interactive functionality of being on a reef during mass coral spawning, an annual natural phenomenon through which coral reefs replenish their populations. With hand-held controllers, participants will be able to "swim" through the water, watch the degraded reef recover and grow and will have the ability to change the rate of coral recovery and learn how increases in temperature impede coral recovery. While research has been conducted on early, desk-top versions of IVR, the potential impact of IVR on learning is still unclear. The research findings will help guide the development of IVR for use in informal STEM environments such as aquariums, zoos, science museums, and others. The IVR experience will be shared on online platforms for home viewing, at film festivals and conferences, and in informal learning environments.
The project addresses the need for research on the impacts of IVR devices as it become more affordable and more widely used at home and in other informal and formal environments. Few studies have investigated how design elements impact the user in IVR, in which the increased immersion affects the stimuli perception and cognitive processing. The research will assess the learning affordances and impacts of the IVR experience on participant ocean literacy (adapting items from an existing ocean literacy survey), environmental empathy/feelings of presence (naturalistic observations and post-experience interviews), and perceived self-efficacy (pre-post survey, post-interview interviews). In addition, the project will research how segmentation (i.e., a continuous experience vs. an experience with breaks), generative learning tasks (hands-on experiences and interactive during IVR), and gender of the narrator in an IVR experience supports learning about ocean environments. Researchers will collect data from students attending high schools with predominantly minority student enrollments. Research findings will be widely shared through peer-reviewed publications, conference presentations, and publications for educators and designers.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
The Computational Thinking in Ecosystems (CT-E) project is funded by the STEM+Computing Partnership (STEM+C) program, which seeks to advance new approaches to, and evidence-based understanding of, the integration of computing in STEM teaching and learning. The project is a collaboration between the New York Hall of Science (NYSCI), Columbia University's Center for International Earth Science Information Network, and Design I/O. It will address the need for improved data, modeling and computational literacy in young people through development and testing of a portable, computer-based simulation of interactions that occur within ecosystems and between coupled natural and human systems; computational thinking skills are required to advance farther in the simulation. On a tablet computer at NYSCI, each participant will receive a set of virtual "cards" that require them to enter a computer command, routine or algorithm to control the behavior of animals within a simulated ecosystem. As participants explore the animals' simulated habitat, they will learn increasingly more complex strategies needed for the animal's survival, will use similar computational ideas and skills that ecologists use to model complex, dynamic ecological systems, and will respond to the effects of the ecosystem changes that they and other participants elicit through interaction with the simulated environment. Research on this approach to understanding interactions among species within biological systems through integration of computing has potential to advance knowledge. Researchers will study how simulations that are similar to popular collectable card game formats can improve computational thinking and better prepare STEM learners to take an interest in, and advance knowledge in, the field of environmental science as their academic and career aspirations evolve. The project will also design and develop a practical approach to programing complex models, and develop skills in communities of young people to exercise agency in learning about modeling and acting within complex systems; deepening learning in young people about how to work toward sustainable solutions, solve complex engineering problems and be better prepared to address the challenges of a complex, global society.
Computational Thinking in the Ecosystems (CT-E) will use a design-based study to prototype and test this novel, tablet-based collectable card game-like intervention to develop innovative practices in middle school science. Through this approach, some of the most significant challenges to teaching practice in the Next Generation Science Standards will be addressed, through infusing computational thinking into life science learning. CT-E will develop a tablet-based simulation representing six dynamic, interconnected ecosystems in which students control the behaviors of creatures to intervene in habitats to accomplish goals and respond to changes in the health of their habitat and the ecosystems of which they are a part. Behaviors of creatures in the simulation are controlled through the virtual collectable "cards", with each representing a computational process (such as sequences, loops, variables, conditionals and events). Gameplay involves individual players choosing a creature and habitat, formulating strategies and programming that creature with tactics in that habitat (such as finding food, digging in the ground, diverting water, or removing or planting vegetation) to navigate that habitat and survive. Habitats chosen by the participant are part of particular kinds of biomes (such as desert, rain forest, marshlands and plains) that have their own characteristic flora, fauna, and climate. Because the environments represent complex dynamic interconnected environmental models, participants are challenged to explore how these models work, and test hypotheses about how the environment will respond to their creature's interventions; but also to the creatures of other players, since multiple participants can collaborate or compete similar to commercially available collectable card games (e.g., Magic and Yu-Go-Oh!). NYSCI will conduct participatory design based research to determine impacts on structured and unstructured learning settings and whether it overcomes barriers to learning complex environmental science.
Northern ecosystems are rapidly changing; so too are the learning and information needs of Arctic and sub-Arctic communities who depend on these ecosystems for wild harvested foods. Public Participation in Scientific Research (PPSR) presents a possible method to increase flow of scientific and local knowledge, enhance STEM-based problem solving skills, and co-create new knowledge about phenology at local and regional or larger scales. However, there remain some key challenges that the field of PPSR research must address to achieve this goal. The proposed research will make substantial contributions to two of these issues by: 1) advancing theory on the interactions between PPSR and resilience in social-ecological systems, and 2) advancing our understanding of strategies to increase the engagement of youth and adults historically underrepresented in STEM, including Alaska Native and indigenous youth and their families who play an essential role in the sustainability of environmental monitoring in the high latitudes and rural locations throughout the globe. In particular, our project results will assist practitioners in choosing and investing in design elements of PPSR projects to better navigate the trade-offs between large-scale scientific outcomes and local cultural relevance. The data collected across the citizen science network will also advance scientific knowledge on the effects of phenological changes on berry availability to people and other animals.
The Arctic Harvest research goals are to 1) critically examine the relationship between PPSR learning outcomes in informal science environments and attributes of social-ecological resilience and 2) assess the impact of two program design elements (level of support and interaction with mentors and scientists, and an innovative story-based delivery method) on the engagement of underserved audiences. In partnership with afterschool clubs in urban and rural Alaska, we will assess the impact of participation in Winterberry, a new PPSR project that investigates the effect of changes in the timing of the seasons on subsistence berry resources. We propose to investigate individual and community-level learning outcomes expected to influence the ability for communities to adapt to climate change impacts, including attributes of engagement, higher-order thinking skills, and their influence on the level of civic action and interest in berry resource stewardship by the youth groups. Using both quantitative and qualitative approaches, we compare these outcomes with the same citizen science program delivered through two alternate methods: 1) a highly supported delivery method with increased in-person interaction with program mentors and scientists, and 2) an innovative method that weaves in storytelling based on elder experiences, youth observations, and citizen science data at all stages of the program learning cycle. This project is funded by the Advancing Informal STEM Learning (AISL) program, which 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. The project also has support from the Office of Polar Programs.
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TEAM MEMBERS:
Katie SpellmanElena SparrowChrista MulderDeb Jones
Glaciers around the world are undergoing dramatic changes. Many people, however, have a limited understanding of the scope of these changes because they are geographically distant and difficult to visualize. Although both digital learning tools and online scientific data repositories have greatly expanded over the last decade, there is currently no interface that brings the two together in a way that allows the public to explore these rapidly changing glacial environments. Therefore, to both improve public understanding and provide greater access to already existing resources, the project team will develop the Virtual Ice Explorer to encourage informal learning about glacial environments. This web application will feature an immersive virtual environment and display a suite of environmental data for an array of Earth's glacial systems. An interactive globe will allow users to select from a collection of sites ranging from polar regions to tropical latitudes. Each featured site will offer users an opportunity to interact with (1) a 3D rendering of the landscape; (2) a local map of the site; (3) historical and contemporary photographs of the site; (4) background information text describing the location, past research, and climate impacts; and (5) available environmental data. One of the most original features of the application will be its realistic, immersive 3D rendering of glacial landscapes by combining very high-resolution digital elevation models and satellite imagery with the application's built-in capabilities for immersive virtual environments. Although immersive environments often require expensive equipment, we are maximizing accessibility by developing the Virtual Ice Explorer to run in a web browser and function across various devices. Thus, the application will be available to anyone with internet access, and they can explore at their own pace.
As part of the successful development of Virtual Ice Explorer, the project team will create a platform for digital elevation models to be visualized and explored in 3D by users within the web application; curate digital elevation models, maps, images, text, and environmental data for inclusion in the web application for up to 11 geographically diverse glaciers/glacial landscapes; iteratively user-test the web application with project partners; and design the architecture of the system to readily scale to a larger collection of glaciers/glacial landscapes. To extend dissemination of the final products, the team has partnered with the U.S. Geologic Survey to showcase four benchmark glaciers in their long-term Glaciers and Climate project. In addition to improving understanding of glacier systems in informal learning environments, the project team will explore applications for spatial learning, employment of 3D environments for educational interventions, and use of Virtual Ice Explorer in formal learning environments. This project is funded by the Advancing Informal STEM Learning (AISL) program, which 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. The project also has support from the Office of Polar Programs.
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TEAM MEMBERS:
Jason CervenecJesse FoxJulien Nicolas
Over the seven years prior to this award, the principal investigator from George Mason University and a national team of scientists, professional societies, science communication researchers, and broadcast meteorologists have been engaged in an effort to include in TV and other weather broadcasts information about current research on the interactions of climate and weather. A Climate Matters network has been established that involves 350 weathercasters at 218 stations, in 119 media markets, nationwide. A particular focus of the initiative has been to help the public become more familiar with the science behind how their local weather and its trends are related to the dynamics of the climate. Many communities nationwide are engaged in deliberations about how to understand, plan for, and adapt to the potential impacts of changes in their weather on important factors pertaining to their economy and well-being, such as natural resources, natural disasters, agriculture, industry, and health. The goal of this continuing project is to expand the quantity and nature of the coverage of such information into the news segments of local news media. By stimulating local reporting on climate impacts and their relationships to personal and community-wide decision-making, this project will potentially help millions of Americans better understand and respond to critical factors that are affecting their lives. This project is funded by the Advancing Informal STEM Learning (AISL) program, which 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.
The project involves five inter-related, complementary activities: (1) Knowledge building through formative research and process evaluation, specifically in-depth interviews and random sample surveys of journalists in each of the participating journalism professional societies; (2) Recruiting 400 news directors, producers, reporters and additional weathercasters into the Climate Matters network; (3) Providing climate reporting training and professional development to members of the network; (4) Producing and distributing Climate Matters reporting packages to all members of the network on a near-weekly basis; and (5) Evaluating the impacts of the climate reporting on public understanding of science.
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TEAM MEMBERS:
Edward MaibachSusan HassolBernadette PlackyRichard CraigTeresa Myers
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. The project will conduct research designed to deepen our fundamental knowledge about culture, experience, and ecosystems cognition and to develop innovative practices and approaches to support learning about changing ecological systems and environmental decision making. Work on cultural differences in the production of complex systems knowledge is severely lacking. This gap in knowledge may contribute to the continued reproduction of inequities in science education. More broadly findings from this project will have clear implications for theories of cognitive development, especially those pertaining to how knowledge is shaped by culture and experience. Focusing on ecosystems may represent an opportunity to not only increase engagement and achievement in science among non-dominant communities and Native youth specifically, but also advance effective learning for all communities. The primary deliverables for the project are conference presentations and research publications. However, the project will also develop additional resources freely available to researchers, educators, and the general public. These will include summer curricular materials and teaching tools, professional development workshops, practitioner briefs about research findings that can be used in professional development workshops and shared share more broadly, and evaluation reports.
A deeper understanding of cultural influences on conceptions of the natural world can serve to advance the educational needs of children, including children from diverse linguistic and cultural backgrounds. Project research will include two interrelated series of studies designed to expand knowledge about human cognition of complex ecosystems and the affordances of informal STEM learning environments in developing and supporting the critical 21st century skill of ecological systems level reasoning. The first consists of a series of experiments focused on ecological cognition and the role of humans in nature. The second consists of design-based research interventions in informal settings, summer workshops for youth and the communities, focused on ecological systems level thinking and socio-environmental decision making. The project will recruit and engage both child and adult participants from two broad cultural communities, Native Americans and European Americans living in urban and suburban communities, in part because it affords a sharp test of human-nature relations. Sampling from two different urban communities will avoid simple Native-non-Native comparative binaries and to conduct Native-to-Native comparative analysis. Based on results from this, the project will result in: 1) foundational knowledge about human learning and reasoning and ecosystems and environmental decision making, 2) culturally responsive models of learning and practice about complex ecosystems for indoors and outdoors informal learning environments, and 3) insights about research-practice-community partnerships. One important objective of the research is to broaden participation and close opportunity gaps for under-represented groups in STEM fields broadly and more specifically for Indigenous people. Members of Indigenous communities, who provide strong role models for other aspiring scholars, will be involved as postdoctoral fellows, research assistants and graduate fellows.