Explore awards
Use the filter menu and interactive map to explore the past competitions offered and grants awarded through the Environmental Literacy Program.
To learn more about project findings and outcomes, view the summaries of our grantees’ summative evaluation reports.
Worldviews Network: Ecological Literacy Programming for Digital Planetariums and Beyond
The Worldviews Network - a collaboration of institutions that have pioneered Earth systems research, education and evaluation methods - is creating innovative approaches for engaging the American public in dialogues about human-induced global changes. Leveraging the power of immersive scientific visualization environments at informal science centers across the US, we are developing transformative educational processes that integrate the benefits of visual thinking, systems thinking, and design thinking. This "seeing, knowing, doing" approach empowers educators with tools and techniques that help audiences to visualize, comprehend, and address complex issues from a whole-systems perspective. The Worldviews Network will make explicit the interconnections of Earth’s life support systems across time and space as well as inspire community participation in design processes by providing real-world examples of successful projects that are increasing the healthy functioning of regional and global ecosystems
Citizen Science, Civics, and Resilient Communities (CSCRC)
The "Citizen Science, Civics, and Resilient Communities” (CSCRC) project led by the Museum of Science, Boston in partnership with Arizona State University, Northeastern University, SciStarter, and the National Informal STEM Education Network (NISE Net), engaged thousands of public participants around the United States in participatory data collection and community deliberation about four climate-related hazards: heat waves, sea level rise, extreme precipitation, and drought. The aims of the project were to increase resilience to extreme weather and environmental hazards through the inclusion of community-generated data, local knowledge, and community values into civic planning, and to increasing capacity among science centers and informal educators for including publics in resilience planning and data collection. The project formulated, iterated, and evaluated a science-to-civics model that included agenda-setting, decision-making and policy forming phases. These activities were developed and implemented by educators at 30 US science centers in collaboration with local resilience planners. Groups of participants in each community collected, analyzed, and shared data about locally relevant hazards; learned about vulnerabilities through visualizations of geospatial data; participated in deliberative, participatory resilience planning and shared perspectives about resilience strategies and their societal and environmental trade-offs; formulated community resilience plans that brought forth diverse perspectives; and presented their findings and recommendations to resilience planners and publics. Participants contributed community-generated data such as urban heat island maps, precipitation data from rain gauges, or documented extreme events through photos of their communities. These data were visualized through StoryMaps, exhibited at local libraries and fairs, and used to facilitate community discussions about the tradeoffs of proposed resilience strategies. Many of the deliberation and participatory science activities pivoted to online formats in response to the pandemic. These digital engagement activities provided new and unanticipated challenges, but also new opportunities connect project participants and capture participant engagement in powerful ways. Our project evaluation found that citizen science and Forum participants increased their knowledge around climate hazards, resilience strategies and their tradeoffs. Participants also increased their confidence and interest in engaging with climate topics, including ways to take action around community climate hazards, contributing to citizen science efforts, and contributing to public policy. Museum professionals found that the project positively impacted their ability to implement science to civics activities, felt supported by the trainings and materials, and planned to continue implementing these programs provided they had continued access to materials, tools, and experts. Many of the project materials are freely available for download at nisenet.org/cscrc and the local project portals documenting the citizen science activities can be found at scistarter.org/noaa.
From Mt. Rainier to the Pacific Coast: Fostering Resilient Climate Leaders, Communities and Coastal Ecosystems
Nisqually River Foundation with partners (South Sound GREEN, Chehalis Basin Education Consortium, and Mount Rainier Institute) with support from NOAA Fisheries’ West Coast Region implemented their project, “From Mt. Rainier to the Pacific Coast: Fostering Resilient Climate Leaders, Communities and Coastal Ecosystems,” over 3 years, from 2016-2018. Our region faces the climate change threats of sea level rise, receding glaciers, extreme weather/flooding, ocean acidification and impacts on humans and important local resources, such as surface and groundwater, salmon, forests, and shellfish. Together we engaged more than 120 teachers and their 3,000+ students from the Nisqually, South Puget Sound and Chehalis watersheds to understand and predict changes in climate, weather, oceans, and coasts. We held three Summer Teachers Institutes to bring teachers connect teachers with local science experts in climate change impacts in the Pacific Northwest. Our 2017 Institute was held in partnership with Mount Rainier Institute, who also hosted Climate Resilient Youth Leadership Programs for 350 12-18-year olds. Participants generated and participated in Community Resilience Action Projects to conserve local ecosystems and increase resiliency in their communities to extreme weather events and changing climate. These projects included: riparian habitat restoration in the Nisqually, Chehalis, and Deschutes basins; creating recycling and composting programs on school campuses; eliminating Styrofoam from school cafeterias; creating a Migration Parade event to explore climate impacts on migratory species; the “Pick a DOT- Do One Thing - What’s your thing?” on-line videos; and the creation of high-impact environmental education art installations, to name a handful. Students also monitored local stream flows, temperatures, and water quality, building on a previous Targeted Watershed Grant from the EPA and a data set that goes back to 1992. NOAA’s mission of Service was supported as teachers and students shared their knowledge in their classrooms, with school districts, at community meetings, and through social media. NOAA assets used included the NW Marine Fisheries staff, Data in the Classroom, CoCoRaHS, NOAA-NASA Cloud Watcher Chart, NOAA’s Climate Literacy Principles, Beat the Uncertainty game, Game of Floods, Thermal Expansion label, the Marine Mammals of the US West Coast, and more. Other local contributing partners include the Nisqually Indian Tribe, the Squaxin Tribe, US Fish and Wildlife Service, Nisqually Land Trust, Thurston Conservation District and Capital Region Educational Service District 113.
Bringing Knowledge of Planet Earth to a Wider Audience and Bringing a Diverse New Group to Careers in Science Teaching
Science On a Sphere (SOS) at Fiske Planetarium will raise awareness and understanding of Earth system science for over 30,000 visitors per year, using student docents and newly-developed, tested pedagogy. SOS will enhance Fiske’s ability to engage 3,000 university students and 30,000 K-12 students and members of the public. A student docent program will transform the traditionally passive experience of a planetarium visit into an interactive learning opportunity. The docents will be drawn from two sources: undergraduates who will be future science teachers, who we take from a selective CU program called "STEM-TP", and Hispanic university and high school students taught by Fiske's planetarium manager Francisco Salas. Docents will talk with visitors and help them understand key science issues that affect the earth, leading to more informed decision-making. Fiske will develop bilingual pedagogical material and new data sets, and share them with NOAA and SOS sites. To support the docents, and visiting students and teachers, Fiske Education Manager Traub-Metlay will lead development of explanatory materials that challenge visitors and provide context for what they are seeing. These will be translated into Spanish by Fiske Manager Salas. New data sets, contributed by faculty members, will expand the range of SOS, into space, adding solar interior models, the celestial sphere, and the cosmic background radiation from the Big Bang, along with new terrestrial data such as the worldwide distribution of forest fires. SOS will become a focal point in Fiske's longstanding tradition of teacher workshops, which are often done in cooperation with the University of Colorado and NOAA scientists and highlight NOAA’s role monitoring the earth and sun. It also will be integrated with a small suite of hands-on exhibits we are installing that explains how observations can be made in infrared, ultraviolet, and X-rays in addition to visible light. These would complement SOS, which features multi-wavelength data. Fiske and its Boulder Colorado-area partners have raised $75,000 to cover the full cost of SOS hardware, and have formal institutional commitments to long-term program development. This award from NOAA will go into materials development, evaluation, and student pay. Colorado communities are aware of NOAA’s important work and the nearby David Skaggs Center, but security measures make it difficult to visit there. Fiske is much more accessible. Fiske will improve the usefulness of all SOS sites by conducting formative evaluation to assess what kinds of SOS presentations work best with public and school audiences, giving feedback to NOAA and all SOS users.
Science on a Sphere - Upgrade 2009
This project works to: (1) Continue to develop software that allows a docent to easily control Science on a Sphere from a small touchpad computer while interacting with visitors. (2) Continue to develop software that allows easy "drag and drop" construction of playlists. (3) Put kiosk control of the sphere, already developed as a student project, into a real kiosk. (4) Assess the use of wireless response devices or "clickers" to enhance audience interaction, learning, and enjoyment, and gather information from visitor responses and share all these improvements with the network. (5) Improve the resolution of the 4 projectors of our SOS installation, in anticipation of new data on the moon and Mars coming to our university, which has been selected to lead NASA moon and Mars missions, and add flat screen TVs for the presentation of auxiliary data.