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.
Raindrop: An Innovative Educational Tool for River Awareness
This project will create a new educational tool for river awareness in the United States through a mobile device application called Raindrop. Raindrop traces the flow of water from the user's home location to a downstream watershed location. Raindrop is part of a larger installation named FLOW (Can You See the River?), which joins the cognitive power of science with the affective power of the arts by creating virtual and physical spaces for river awareness in the White River watershed in Indianapolis, IN. In addition to the flow path, Raindrop functionality includes watershed context and physical marker mapping, flow path water quality indicators, utilization of NOAA weather feeds and alerts, weather and climate comparisons, storm event size implications, and guidance on watershed restoration actions. Artist-designed physical markers are strategically located in the watershed to direct the virtual user to physical areas of interest.
CoCoRaHS: The Community Collaborative Rain, Hail and Snow Network
The Community Collaborative Rain, Hail and Snow Network (CoCoRaHS) involves thousands of people of all ages in the observation and study of weather, climate and water resources. In CoCoRaHS, citizens of all ages help measure and report rain, hail and snow from their own homes, schools and businesses. These data are then efficiently collected via the internet, archived in a national database, and made immediately available to participants, scientists and the general public showing the fascinating patterns of precipitation from each passing storm (see http://www.cocorahs.org). The measurement of precipitation and the patterns, variations and impacts that result, open the door to creative study of our environment. It is the "lowest common denominator" of hydroclimatic exploration. In this project, data from the CoCoRaHS citizen science network will be shared with and utilized by NOAA partners to help monitor drought, to help detect local severe storms, to alert local authorities to developing flash flood situations, to provide "ground truth" for NOAA and NASA remote sensing technologies, and to provide verification for both local and national weather and climate forecast products.
Community Collaborative Rain, Hail and Snow Network (CoCoRaHS)
The Community Collaborative Rain, Hail and Snow Network (CoCoRaHS) is a citizen science program where thousands of volunteers across the country measure and report the amount of precipitation that falls each day in their own neighborhood. In the next three years CoCoRaHS will use strategies from the “Citizen Science Toolkit” and align activities to the “Essential Principles to Climate Science” to engage thousands more participants in collecting, reporting and exploring precipitation. Evapotranspiration measurements will be added to teach and demonstrate the hydrologic cycle in action. Through strong NOAA partnerships with the National Weather Service, the National Climatic Data Center, the Earth Systems Research Lab and the National Operational Hydrologic Remote Sensing Center, precipitation data quality and accessibility for professional users will be enhanced. The CoCoRaHS network will be constructing training, data entry and visualization tools utilizing Web 2.0 concepts, cyberlearning tools and hand-held device applications with a goal of increasing participation and expanding the volunteer network into broader, younger, more diverse audiences.
Climate Strong—Building Tribal Youth Leadership for Climate Resiliency
Fond du Lac Tribal and Community College in partnership with the Fond du Lac Band of Lake Superior Chippewa, Great Lakes Indian Fish and Wildlife Commission, 1854 Treaty Authority, University of Wisconsin Extension’s G-WOW program, and Lake Superior Estuarine Research Reserve are proud to provide the Climate Strong-Building Tribal Youth Leadership for Climate Resiliency program. Our three-year project aims to increase the knowledge and readiness of middle to high school students to deal with the impacts of extreme weather and environmental hazards that face the Ojibwe Ceded Territories (Minnesota, Wisconsin, and Michigan) and build capacity for increased climate change community resiliency curriculum in the classroom. Climate change impacts everyone, but for indigenous peoples it threatens culturally significant traditions, such as wild rice harvesting, that relies on sustainable fish, plant, and wildlife resources. These resources are critical for subsistence, spiritual and cultural needs, and treaty rights. Culturally relevant, place-based education is an important tool to involve students, in particular, underrepresented students, in developing critical thinking skills to assess the issue of community resiliency to extreme weather events and engaging in action to help resolve it. In order to achieve our objectives, we will aim our educational efforts toward youth first, as well as reaching the communities we serve. Each year, six residential youth camps (18 total) will be hosted within the Ojibwe Ceded Territories. Each three-day camp will be focused on investigating issues of community resiliency, adaption, and mitigation associated with increasing extreme weather events as well as natural environmental hazards. Camps will use place-based, experiential lessons to teach resiliency issues demonstrated by climate change effects on Ojibwe culturally important natural resources. Our project will train formal and informal educators throughout the Ojibwe Ceded Territories on how to use indigenous climate curriculum using tribal traditional ecological knowledge and NOAA assets to investigate community climate resiliency issues. Using both teacher “train the trainer” workshops and our camps, this project will create a network of formal K-12 and informal educators trained to become leaders in providing culturally relevant climate resiliency outreach to students. We will increase community resiliency literacy through six community outreach events each year (18 total) that will highlight resiliency issues facing our region and the research being done on landscape and ecological vulnerabilities through NOAA and tribal assets. Our goals are increased community resiliency literacy and adaptation of stewardship behaviors that reduce climate change impacts and increases adaption and mitigation behaviors by our participants. These behaviors will help increase stewardship practices reducing extreme weather impacts affecting the sustainability of culturally relevant resources, thereby preserving important cultural, spiritual, subsistence, and treaty rights practices.
Signals of Spring - ACES [Animals in Curriculum-bases Ecosystem Studies]
Signals of Spring ACES (Animals in Curriculum-based Ecosystem Studies), will use NOAA remote sensing data with curriculum-based activities for middle and high school students (see http://www.signalsofspring.net/aces/). Students use Earth imagery to explain the movement of animals that are tracked by satellite with NOAA's ARGOS monitoring system. The project addresses the issues surrounding the animals and environments of NOAA's National Marine Sanctuaries (NMS). Comprehensive teacher professional development will be delivered both onsite and online for 250 teachers. The project will impact 20,000 students and parents. Ten curriculum modules will be delivered to students, accompanied with an investigation of El Nino and animals, as well as ocean life and global climate change. ACES will provide classrooms with the curricular area of conservation and the ecological issues surrounding the ocean, using marine animals as the engaging component. Students will apply NOAA Earth data to animal migrations and the critical environmental issues that face these animals that are of depleting populations. Once teachers and students have the necessary skills to interpret data, students will perform the ACES investigations.