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.
Global, Local, Coastal: Preparing The Next Generation for A Changing Planet
This project, “Global, Local, Coastal: Preparing the Next Generation for A Changing Planet," was led by Groundwork Hudson Valley in partnership with Sarah Lawrence College's Center for the Urban River, to integrate and expand the work of three award-winning environmental education centers in Yonkers, NY – The Science Barge, Ecohouse and the Center for the Urban River (CURB). Its primary objective was to prepare low-income students for the impact of a changing climate so that they can participate both personally and professionally in a world in which these issues are increasingly prevalent. It reached an audience that is not well served by traditional programs and is most vulnerable to the consequences of climate change. Over the course of two years, the project served 544 high school youth from the Yonkers public school system through a new, integrated curriculum that presented these issues from multiple perspectives in an experiential learning format. Beyond its impact on students, the project has had a broader impact on people in our region who have visited the Science Barge, Ecohouse and CURB, which together receive close to 10,000 people each year. The new exhibits have reinforced key themes related to resiliency and adaptation and staff have integrated these concepts into their public tours. Beyond our region, the project has further impacted STEM educators across the country with access to the newly created "Global, Local, Coastal" curriculum and web application which is posted on Groundwork's website and accessible without charge. Other partners included NOAA’s Hudson River National Estuarine Research Reserve, the Lamont-Doherty Earth Observatory, and Center for Climate Risk in the Urban Northeast (CCRUN), and Yonkers Public Schools. The project has been carried out in a community that has been severely affected by extreme weather in the last decade, including three hurricanes. Outcomes have helped to create “an informed society to anticipate and respond to climate and its impacts” and served to support NOAA’s goal of a developing a “Weather-Ready Nation” and “Resilient Coastal Communities and Economies.”
Community Resilience Informed by Science and Experience (C-RISE)
The goal of Community Resilience Informed by Science and Experience (C-RISE) was to build the capacity of coastal communities to support resiliency planning and adaptation actions. To accomplish this the Gulf of Maine Research Institute (GMRI) worked with an advisory group including representatives from NOAA’s Office for Coastal Management, Maine Geological Survey, Maine Department of Environmental Protection, the cities of Portland and South Portland, Greater Portland Council of Governments, New England Environmental Finance Center, and Axiom Technologies to develop public programming that provided participants with knowledge of and access to local sea level rise data. This program, "Preparing Coastal Communities for Sea Level Rise" is a community education event that built participant knowledge in sea level rise science, future projections, and local impacts. Through visual presentations and facilitated discussions, GMRI brought regional relevancy to global climate data using local history and case studies of past flooding events. Using technology and peer discussions, GMRI staff provided participants with access to interactive data sets and maps that visualized the impacts of sea level rise and weather events on community resources like roads, parks, hospitals, schools, and other valued assets—and how climate projections will increase these impacts over time. Over the course of this grant, GMRI staff facilitated over 60 community events in over 30 coastal communities in Maine, reaching over 2,000 individuals. While many of the participants had heard about sea level rise and storm surge prior to this program, few had internalized what this meant for their own communities. Post-event surveys indicated that participants discussed flooding issues with their families, friends, and neighbors, further examined local sea level rise maps, and engaged with community decision-makers about resiliency planning. GMRI believes that strong and informed representation of citizens is vital to addressing climate challenges and resiliency actions. We continue to leverage this work through various projects as we collaborate with coastal communities to provide them with knowledge, skills, and tools needed to develop community-focused resilience plans for sea level rise.
HEARTForce: Hazard Education, Awareness & Resilience Taskforce
Communities in Colorado are increasingly experiencing major disruptions from environmental hazards, such as wildfire, flood, and drought. With this rise in hazardous events, there is a pressing need for communities to increase their resilience. An interdisciplinary team from the Cooperative Institute for Research in Environmental Sciences (CIRES) Education & Outreach Program at the University of Colorado at Boulder has developed and implemented an innovative, action-oriented youth engagement project that targets rural Colorado students, teachers, and communities. Our engagement model 15 empowers youth i) to envision community resilience through immersive scenario-based role play based using a solid understanding of the relevant science, ii) to learn about natural hazards through engaging place-based lessons, iii) to initiate conversations about hazard preparedness from within communities, and iv) to develop and implement student-led resilience action projects and participate in community resilience expos. A needs assessment disseminated to Colorado teachers guided the project team in the development of all instructional materials and allowed for customizing the content to teacher needs. The project team developed three units (one of wildfire, flood, and drought) for middle and high school students that consist of three parts: place-based data-focused lessons to introduce the hazard, a scenario-based role-play game with a focus on youth empowerment, and a design challenge for students to develop an idea for a resilience action project. Teachers can choose to teach any or all parts and invite community resilience stakeholders and practitioners to share their work with their students, and support students in designing and implementing action projects. Some teachers and students chose to host a Community Resilience Expo, where they invited the public to learn more about the hazard and what resources exist in the community to help prepare for the hazard. The project aimed to accomplished the following three objectives: 1) Increase Colorado secondary teachers’ knowledge and confidence to teach about local natural hazards, and to facilitate discussions about community resilience; 2) Increase Colorado youth’s understanding of natural hazards, their community’s vulnerability, and their involvement in resilience planning efforts, and 3) Enhance the capacity and empowerment of young people in Colorado to engage in dialogue with their peers, families, and community stakeholders about community resilience issues and identify, develop, and implement resilience actions. The project evaluation explored the efficacy of the program model and studied the impact of the project activities on students and teachers. The project filled a critical gap in Colorado’s resilience planning which does not include teachers and youth. The project was guided by partners from the NOAA RISA program Western Water Assessment, seven NOAA science advisors, and was implemented together with over 40 community partners, school partners and collaborators from across Colorado. Over the course of the four-year program, the project trained and supported 88 teachers, engaged nearly 2,000 students, and resulted in 9 Resilience Expo events across rural Colorado.