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.
Science Shop for Community Resilience
The Academy of Natural Sciences (ANS) of Drexel University is integrating multi-modal environmental education into a participatory research program with the goal of enhancing local resilience to climate change in Philadelphia neighborhoods impacted by environmental racism. Established in the Netherlands in the 1970s, the “Science Shop” is a model for community-based participatory research now found widely throughout the European Union. Science Shops are not “shops” in the traditional sense of the word; they represent the institutionalization—typically within universities—of spaces to help create novel applied knowledge in equal partnership with organizations that lack the capacity, resources, or expertise to carry out such research independently. SS4CR will adopt this model to connect community leaders and residents in Philadelphia with the educational, scientific, technical, and legal resources of NOAA, ANS, Drexel, City of Philadelphia, and other regional, state, and federal experts, as needed, in order build capacity among communities in carrying out impactful climate education, research, and policy advocacy. SS4CR will initiate collaboration with three Philadelphia-based community organizations (CBO) to undertake a deep exploration of local climate and environmental quality issues through co-designed, year-long programming that focuses on the exchange of local and “expert” knowledges and the creation of trusting relationships. Facilitated knowledge sharing activities may include, among others: “serious games,” asset mapping, deliberative forums, and hand-on, kit-based workshops. Over the 2nd and 3rd program year, SS4CR will build on this foundation to frame and articulate a unique research request with each CBO that includes methods, timeline, distribution plan, and expected outcomes, to be undertaken in partnership with community leaders and residents. SS4CR is focused on locally tailored, community driven climate solutions and building community capacity to enact those solutions. Through SS4CR, all parties should increase their knowledge of local climate hazards and their impacts on Philadelphia’s most disadvantaged neighborhoods; improve their ability to reason about and conduct research into the ways that human and natural systems interact; increase their awareness of the effectiveness and potential trade-offs of different resilience interventions for Philadelphia communities; and build capacity in effectively translating knowledge into action.
Empowering Climate Change Resiliency through Education in an Underserved Community
Understanding climate change and its exacerbating effects on local environmental phenomena (e.g., increase in frequency and/or intensity of drought, ocean acidification, water shortages, degraded fisheries) and how to create resiliency is critical for underserved communities as they are disproportionately impacted by these hazards and yet, have the least capacity to actively respond. To address this issue, Ocean Discovery Institute and its partners will build understanding of climate change and impacts on local hazards, human-nature interactions, and individual and community capacity for resilience through place-based education in the underserved community of City Heights, San Diego, CA. This project, titled “Empowering Climate Change Resiliency through Education in an Underserved Community,” will involve a wide range of partners, including California Sea Grant, the California Nevada Climate Applications Program, NOAA’s Geophysical Fluid Dynamics Laboratory, Cabrillo National Monument, San Diego Canyonlands, RECON Environmental, Inc., and the San Diego Unified Port District. Project activities encompass the design, piloting, and implementation of multi-grade level, integrated curricula that incorporate hands-on student climate science research, innovative solution building, and teacher professional development. This project will serve 1,500 middle school students annually and is expected to increase students’ understanding of scientific concepts and processes and human-nature interactions, improve their ability to make science-informed decisions, and contribute to local resilience efforts.