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.
Earth System Science for Elementary Teachers (ESSET)
Angelo State University (ASU), in partnership with Texas borderlands school districts and the National Weather Service Office in San Angelo, Texas, are recipients of a NOAA Environmental Literacy Grant Priority 1 grant titled "Earth System Sciences for Elementary Teachers" (ESSET). This project will: 1) Increase the knowledge and skills level of 25 elementary in-service teachers regarding best practices for teaching integrated Earth System Science concepts in a learner-centered, outdoor environment; 2) Increase teachers' ability to align integrated science content with Texas standards-based curriculum and NOAA's Education Strategic Plan; and 3) Integrate concepts of environmental stewardship with teachers' newly acquired pedagogy and science content. Participants will receive nine semester-hours of ASU graduate credit, and a variety of tools and equipment for their classrooms following successful completion of this 18-month project. Anticipated results include increases in overall integrated science content knowledge, best practices, and self-efficacy for participating teachers. Scaling-up this proof-of-concept project to catalyze change across Texas will occur near the end of ESSET.
Building Heat Resilience in Southwestern Virginia through Education
Of all weather-related disasters, heat waves cause the most deaths every year in the United States and climate change is already increasing their frequency, duration, and intensity. In urban areas, heat exposure and risk are highly related to the built environment and the everyday lived experiences of urban residents. Building heat resilience—the capacity for communities to adapt to and cope with higher temperatures and heat waves—therefore necessitates a comprehensive and place-based approach that includes education about the factors affecting risk and vulnerability, consequences of heat on health and livability, as well as potential long-term and short-term actions that residents can take to reduce risk and vulnerability. In this project, we will promote environmental literacy and strengthen climate resilience in Southwest Virginia by building a cross-sector urban heat resilience environmental literacy network that includes: the public education system, students and families, community health professionals, and City government. The project is led by Carilion Clinic in partnership with Virginia Tech, Virginia Clinicians for Climate Action, and Roanoke City Government. Through these partnerships, we will build resilience pathways for dealing with long-term higher temperatures and emergency heatwaves using combined urban planning and public health approaches. We will extend and expand Virginia Tech’s previous engagement with Roanoke youth (2-week summer STEM and Heat Resilience summer school program for middle school students) to involve the community more broadly to co-produce neighborhood-specific heat mitigation plans that address resident concerns in Roanoke and improve environmental literacy around the problem of urban heat as both an acute and chronic issue. We will work with teachers and administrators in the Roanoke City Public School system to institutionalize the STEM/urban planning-based curriculum we develop so that more children can benefit from it. Using youth education as an entry to engage the broader community, we will also host a family-based STEM-Urban Planning Family Summit, which will inform residents about urban planning processes and how changes to urban landscapes can make neighborhoods cooler, more comfortable, and more resilient to rising temperatures. We will also build capacity among health professionals and integrate them into community planning by: educating and enlisting the support of health professionals and Carilion’s community outreach network to work with community groups and families; engaging three Carilion clinicians to participate in an eight-hour educational training to learn more about impacts of climate and health in the region and provide tools for educating other clinicians and community; and training Carilion’s 37 Community Health Educators and Community Health Workers and developing community education/outreach materials on climate change impacts on health with a focus on heat illness. The urban planning and public health components to increasing heat resilience will come together in a culminating Heat Resilience Fair, at which participants in our program (students, families, residents, clinicians, health workers, and City government officials) will present ideas and solicit feedback from the broader community. The solicited ideas will be incorporated into the City’s planning processes, enabling formalization of long-term goals for public health and the built environment with respect to rising temperatures.
Building a Green Texas: Activating a New Generation of Sustainability Leaders
Climate change disproportionately impacts low-income and otherwise marginalized communities that typically have the fewest resources to adapt. Furthermore, the very communities that feel the effects of climate change most acutely have been historically underrepresented in the fields of sustainability and green building. The Building a Green Texas (BGT) project helps address these concerns by giving high school students opportunities to develop the knowledge, skills, and confidence to tackle challenges posed by climate change. In the process, students gain valuable green career skills and credentials and become part of a green building school-to-job pipeline that will help contribute to a more diverse workforce. Texas-based nonprofit EcoRise, the University of Texas at Austin, and the University of Texas Marine Science Institute/National Estuarine Reserve System of NOAA’s Office for Coastal Management will lead this robust, three-year project beginning in Central Texas in Year 1 and expanding into Houston and Texas Gulf Coast communities in Year 2. Through school-year field experiences and paid summer internships, students in the program will use established scientific evidence, citizen science, and an understanding of location-specific socioeconomic and ecological factors to explore current and future extreme weather phenomena and other environmental hazards facing their communities. They will gain real-world learning experiences and career exposure by directly engaging with scientists, civic leaders, green building professionals, and NOAA data and staff. As students help design community-based green building projects, they will consider scientific uncertainty, cultural knowledge, and social equity, in the real-world context of improving community resilience.
Engaging ESL Adult and Youth Learners in Technologically Facilitated Outdoor Experiential Learning to Improve Environmental, Ocean, Climate and English Literacy
Literacy Volunteers America of Monroe County and The College of Exploration are developing and implementing a pilot project to target traditionally under-represented ethnic groups who are limited English proficient – many reading and writing in English at the grade 0 - grade 5.5 level. The project goals are for learners of English as a Second Language (ESL) to use digital photo cameras, digital video cameras, waterproof underwater HD cameras and GPS technologies to geo-locate, explore, observe, record, display and tell stories in English both in words, photos and short HD video clip sequences. Stories will be about the exploration of places like the National Marine Sanctuaries and other areas of the country and coasts where there are scientific observation and monitoring opportunities created and supported by NOAA partners.
Science-on-a-Sphere Programming: Presenting NOAA Science at the Maryland Science Center, the Science Museum of Minnesota, and in the National Traveling Exhibition "Water Planet"
Using the relative strengths of each museum, the Science On a Sphere® Partnership between the Maryland Science Center and the Science Museum of Minnesota has developed two complementary exhibit approaches to Science On a Sphere® (SOS). Audiences interacting with SOS are able to observe global connections in geophysical phenomena not possible with any two dimensional representation of the Earth. The goal of the project is for museum visitors, particularly underserved audiences, to comprehend how human activities are influencing global processes now and might do so in the future. The project also tests new partnership models for working with NOAA and other science research organizations to broaden the educational impact on all groups.
Science-on-a-Sphere Installation: Presenting NOAA Science at the Maryland Science Center, the Science Museum of Minnesota, and in the National Traveling Exhibition "Water Planet"
This award supports the installation of a Science On a Sphere® in two museums comprising the SOS Partnership®, a collaboration between the Maryland Science Center (Baltimore) and the Science Museum of Minnesota (Saint Paul). Each of the two museum installations will take advantage of the wide variety of NOAA data sets that Science On a Sphere® (SOS) projects onto a six-foot sphere, creating unique, animated, whole-planet views of real-time, past and forecasted, weather, climate and geophysical processes, and many other dramatic visualizations of the whole Earth.
Planet Earth Decision Theater
Through the Planet Earth Decision Theater project, the Science Museum of Minnesota and its partners will upgrade the museum's current SOS exhibit with new SOS learning experiences, produce for the SOS community a new SOS film about the role of humans as the dominant agents of global change and two new presenter-led SOS programs based on the film with one version utilizing an audience feedback mechanism called iClickers. SMM also will complement its Planet Earth Decision Theater and the Maryland Science Center's SOS exhibit with the addition of Rain Table (a new interactive scientific visualization platform) at both locations to further reinforce the Anthropocene messages of the new SOS film and programs. SMM will conduct extensive evaluations of the new SOS film, programs and Rain Tables. SMM's partners on this project include the NOAA Environmental Visualization Lab, University of Minnesota's National Center for Earth-surface Dynamics, University of Minnesota's Antarctic Geospatial Information Center, University of Minnesota's Institute on the Environment, Maryland Science Center, Oregon Museum of Science and Industry, Institute for Learning Innovation, George Mason University's Center for Climate Change Communication, and the Electronic Visualization Laboratory at University of Illinois-Chicago.