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.
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.
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
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.
Community Resilience Informed by Science and Experience (C-RISE)
Coastal rural communities have deep cultural connections to and rely heavily upon the marine environment and economy. Due to their remoteness, isolation from central planning agencies, and lack of financial and municipal resources, they are highly vulnerable to climate impacts such as sea level rise. The Gulf of Maine Research Institute (GMRI) and key project partners, Upswell and the Island Institute, will develop, convene and facilitate regional trainings by which Maine’s rural coastal communities can increase their capacity to plan and prepare for coastal climate impacts by developing the knowledge, skills, and relationships necessary to create data- and community-informed climate resilience plans. Cornerstone to the regional trainings is an engagement tool that builds common knowledge, incorporates diverse community value and voice, provides a framework for community planning and decision making, and builds relationships amongst participants. These trainings will also leverage and engage resilience professionals in Maine to share and represent their resources as communities apply those to their newly acquired skills and frameworks for community planning and decision making. Community leaders from the regional trainings will continue their learning through participation in a professional learning community. We will also leverage GMRI’s prior NOAA Environmental Literacy Grant, titled “Community Resilience Informed by Science and Experience (C-RISE),” to deliver community education programming that builds the capacity of residents in coastal communities to support resiliency planning and adaptation actions by providing participants with knowledge of and access to local sea level rise data. This project will serve 20 rural coastal and island communities in Maine through four regional trainings. Each community will select a diverse and equitable representation of 10 stakeholders and community leaders to participate in the trainings. Community education events will be accessible to all residents of each community. These interventions will build community literacy and capacity for developing coastal resilience plans that benefit the social, environmental, and economic health of the community and align with Maine’s Climate Action Plan. An advisory group including representatives from NOAA’s Office for Coastal Management, Maine Sea Grant, Wells National Estuarine Research Reserve, the State of Maine’s Governor’s Office of Policy Innovation and the Future, Maine Geological Survey, Maine Department of Environmental Protection, the Town of Vinalhaven, and the Town of St. George will guide the development and implementation of this project. Researchers at the University of Maine, Orono will evaluate the implementation of the project as well as assess the impact of this project on a communities’ ability to make community-informed climate plans. This project reflects NOAA’s Community Resilience Education Theory of Change, specifically supporting resilience planners and community members to develop trusting relationships focused on their collective environmental literacy through genuine conversations around resilience planning and decision making. With NOAA, we envision communities that have the capability to anticipate, prepare for, respond to, and recover from significant multi-hazard threats with minimum damage to social well-being, the economy, and the environment.
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.
Measuring the Effectiveness of North American Environmental Education Programs with Respect to the Parameters of Environmental Literacy
The North American Association of Environmental Education (NAAEE) will assess environmental literacy levels of middle school students and compare the results to baseline data collected nationwide in 2007. In this study the research team will solicit and select a purposeful sample of schools and other program sites that represent the following categories: (1) Networks, e.g., Lieberman schools, Earth Force/Green Schools, Blue Ribbon School, etc.; (2) Programs, e.g. WET, WILD, PLT, IEEIA, etc.); (3) environmentally focused Charter and Magnet Schools; and (4) Independent Schools. By comparing 2008 programmatic assessments to the established 2007 base-line levels of environmental literacy (while investigating the variables that may contribute to school wide or classroom levels of literacy), the field of environmental education and NOAA may make future curricular and program decisions that are grounded in sound scientific data. The Research Team will review these results and generate a report to be submitted to NOAA and NAAEE (and other partners as needed). These results comprise a presentation at the annual NAAEE Conference and other venues. Articles will be submitted to professional newsletters and journals.
Secondary Analyses of the National Environmental Literacy Assessment: Phase I & II Students, Teachers, Programs and School Survey
Phase Three of the National Environmental Literacy Assessment (NELA) will analyze the relationship between middle school students' scores on the MSELS and other measured variables that may have critically impacted the development of environmental literacy in these students. Phases One and Two of the National Environmental Literacy Assessment (NELA) relied on four data collection instruments: The Middle School Environmental Literacy Survey (MSELS), the School Information Form, the Program Information Form, and the Teacher Information Form. The primary outcomes of these phases were to identify general levels of environmental literacy (measured by the MSELS) and to compare these levels both within and across the studies. Through the comparison of these data sets, we could identify schools in which grade level cohorts of students displayed markedly higher levels of environmental literacy variables than their peer cohorts at other schools. However, questions remain concerning the magnitude and influence of variables that were reported on those survey forms, as well as the relationships among variables measured by the MSELS scales. The major research questions that will guide this Phase are: 1) To what extent do the variables measured by these Forms during Phase One and Two appear to have contributed to or influenced students' environmental literacy scores; 2) How do these variables appear to interact with each other; and 3) What are the relative contributions of knowledge, affect, and skill variables to actual commitment or behavior. The resulting analyses of this study will be shared both through peer-reviewed publications as well as appropriate professional conferences.