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.
Resilience from the Youth Up
As climate impacts ratchet up across the United States, the Great Lakes region tends to fly under the national radar. While the Great Lakes do not experience hurricanes, rising sea levels, or large-scale wildfires, the local climate has become increasingly erratic in recent years. The region, however, is one of the most unprepared in the country to cope with these impacts. A recent Grosvenor report (2014) on climate resilience among 50 global cities ranked Detroit last among 11 U.S. cities for adaptability and only better than three cities for overall resilience, which incorporates both climate vulnerability and adaptability factors. Of U.S. cities with more than 100,000 residents, Detroit has the highest percentage of African-American residents (80.7%, U.S. Census 2016). Still recovering from bankruptcy, the city also has a 39% poverty rate, which impacts over 56% of children (ibid). These socio-economic factors, coupled with other environmental justice concerns, such as a centrally located incinerator and an asthma rate of 15.5% among adults resulting in over 3,000 hospitalizations annually, make Detroit residents particularly vulnerable to climate impacts. This project will address the urgent need to increase resilience by working with high school students and teachers in Detroit and southeast Michigan to increase their awareness of climate change and develop projects that help their schools and neighborhoods become resilient to increased occurrence and intensity of heat waves, storm events, and flooding. Using NOAA assets, including GLISA localized climate data and Sea Grant outreach and education expertise, high school students and teachers will partner with climate scientists to explore local climate impacts firsthand and to develop resilience strategies and projects that protect vulnerable households and neighborhoods and contribute to broader sustainability initiatives. The City of Detroit seeks this involvement as it ramps up a new Office of Sustainability and seeks proposals to develop the city's first Sustainability Framework. The effort is a partnership with EcoWorks, Great Lakes Integrated Sciences + Assessments (GLISA), Michigan Sea Grant (MISG), Southeast Michigan Stewardship Coalition (SEMIS), Eastern Michigan University, Civic Research Services, Inc., and the National Oceanic and Atmospheric Administration (NOAA). In each of the next three years, 200 students from various high schools in the Detroit and Ypsilanti areas will participate in weekly activities related to the grant. The four primary objectives of the program include: 1) Engage students in assessing and quantifying climate vulnerabilities of their schools, neighborhoods, and surrounding community. 2) Using a place-based education (PBE) model, prepare educators to engage students in creating plans and completing projects that increase community resilience. 3) Empower high school students to teach residents about local climate impacts and increase understanding of resilience strategies to mitigate extreme weather events or other environmental hazards. 4) Contribute to the completion and implementation of local sustainability and climate action plans in Southeast Michigan.
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.
Chesapeake Bay Watershed Education Scale-up Initiative
The Chesapeake Bay Watershed Education Scale-up Initiative is a project-based educational program that engages students in 21st century investigations of watershed concepts using real-time geospatial technology. The project's goal is to provide as many as 20,000 students across eight states with a dynamic, geographic learning experience that combines classroom learning activities with outdoor field experiences and technology-supported inquiry. To achieve this goal, the project will provide professional development for 400 educators across the Chesapeake Bay Watershed. This project builds on an existing educational citizen science project launched by the National Geographic Society in 2009 to study water quality in the Chesapeake Bay Watershed and has been designed to serve as a national model for the implementation of classroom and field-based learning.
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.
Integrating Science on a Sphere into The Tech Museum of Innovation in San Jose, CA.
This cooperative agreement will support the Tech Museum of Innovation (The Tech) in San Jose, California in acquiring SOS-related hardware and software, as well as providing the technical support to facilitate the installation of SOS in The Tech's Exploration Gallery in 2005-2006. Science On a Sphere® will be the focal point of The Tech Museum's newly renovated Explorations gallery. The dramatic sphere will draw visitors to the center of the 8,000 square-foot space. Hands-on experiences around the sphere will engage visitors in meaningful explorations of NOAA data. The Tech Museum will apply its exhibit and program development expertise to make SOS accessible to people of all ages, backgrounds, and educational levels. All panel text, audio, and captions will be presented in both English and Spanish to allow greater accessibility for local audiences. The Tech's SOS system will focus on three topics of great interest to Californians: Earthquakes, Oceans, Space. NOAA data will enable us to showcase the technology that is used to measure, monitor, and track environmental changes in our world. We hope to further address the potential of data modeling to aid in predicting the future state of the environment based on our actions. The Tech is also opening a new environment exhibition, Green By Design (GBD) in 2006. This exhibit focuses on how sustainable design and technological innovation offer potential solutions to many of our global environmental challenges. SOS will provide a compelling centerpiece to support the educational purpose of this gallery as it effectively illustrates how data collected with remote sensing technologies are helping us understand and make predictions about our dynamic environment and the future of our planet. SOS will illustrate how these data collecting technologies assist us in developing our knowledge about our planet and its solar system.
The Tech Museum Environmental Literacy Programming Grant
The Tech Museum of Innovation (The Tech) in San Jose, California proposes to partner with NOAA to integrate Science On a Sphere® (SOS) into The Tech's Exploration gallery and to facilitate the development of informal and formal learning programs. Exhibits and programs at The Tech focus on the integration of emerging technologies into hands-on visitor experiences. In 2004, The Tech partnered with NOAA, the Maryland Science Center (MSC), and a consortium of national science centers to explore the potential and effectiveness of SOS as a method of engaging and informing the general public about NOAA-related sciences. Initial testing of SOS at the Maryland Science Center revealed that SOS is a visually compelling and engaging medium for conveying complex scientific information to museum visitors. Ninety-eight percent of visitors tested regarded a facilitated SOS program as a good or excellent experience with strong visitor retention suggesting the potential of SOS as a compelling visitor tool. However, when the experience was not facilitated this retention dropped dramatically. Support from NOAA will enable The Tech to test SOS and NOAA data in a number of formats to determine the most effective ways to utilize this incredible technology. The results of this evaluation will be shared with other museums using SOS to improve its reach in teaching informal audiences and promoting interest in both STEM content and NOAA research. The SOS exhibit will bring together scientists, technologists, informal education specialists, and young users to unlock the educational potential of NOAA's datasets and further NOAA's educational plan. Hands-on experiences using SOS will engage visitors in meaningful explorations of NOAA data. The Tech Museum will make SOS accessible to people of all ages, backgrounds, and educational levels. All panel text, audio, and captions will be presented in both English and Spanish to allow greater accessibility for local audiences. SOS will provide the programming platform upon which to explore the educational opportunities of this gallery as it illustrates how data collected with remote sensing technologies is helping us understand and make predictions about our dynamic environment and the future of our planet. SOS will illustrate how these data collecting technologies assist us in developing our knowledge about our planet and its solar system.
GLOBE Program
In the project entitled "The GLOBE Program 2010: Collaborative Environmental Research at Local to Global Scales", the University Corporation for Atmospheric Research (UCAR) will improve the functionality of the GLOBE Program (www.globe.gov) by providing: (1) new methods, tools, and services to enhance GLOBE Partner and teacher abilities to facilitate inquiry-based learning and student research, (2) initial pilot testing and assessment of student and teacher learning activities and events related to Climate Science research, (3) improvements in GLOBE's technology infrastructure and data systems (e.g. database, social networking, information management) to support collaborations between students, scientists, and teachers, and (4) development of a robust evaluation plan. In addition, the UCAR will continue to provide support to the worldwide GLOBE community, as well as program management and timely communication with program sponsors.
R4Ed: Rigor, Relevance, and Relationships in Resilience Education
Rigor, Relevance, and Relationships in Coastal Louisiana Resilience Education (R4Ed) helped high school students in coastal Louisiana learn through data analysis about the science of hurricanes in a warming world, learn through local stories about impacts of hurricanes, and then identify resilient actions that could help keep their households and their communities safe. To accomplish this the UCAR Center for Science Education worked with the NCAR Capacity Center for Climate and Weather Extremes and the South Louisiana Wetlands Discovery Center to develop a high school curriculum called Hurricane Resilience. During 20 days of instruction, students make connections between the science of hurricanes, how they affect their community and region, and how we can plan for a more resilient future. Making local connections, students develop an understanding of 1) the risks that their community faces now and in the future due to hurricanes and tropical storms, 2) how sea level rise increases the risk, and 3) how our actions can help us be less vulnerable and more resilient. The curriculum unit aims to empower high school students to have a voice in resilience planning and understand the relationship between the science of hurricanes and the local impacts these storms have on people and places. Hurricane Resilience is available online and adaptable for high schools in any coastal location where hurricanes pose a threat. The R4Ed project worked with science curriculum coordinators in Terrebonne and Lafourche Parishes, Louisiana, to ensure that the curriculum would meet the needs of their districts. We pilot tested the curriculum in three high school environmental science classes at South Terrebonne High School in Houma, Louisiana. The final curriculum was modified to work for in-person, hybrid, and virtual learning formats during the pandemic. The implementation was scaled up to serve 600 students instructed by 12 teachers in Terrebonne and Lafourche Parishes, LA, during the 2020-2021 school year and then approximately 1000 students during the 2021-2022 school year. Teacher professional development workshops instructed virtually when Covid-19 risk was high and in-person when risk was lower, oriented teachers to the lessons. Over the course of this project, Hurricane Resilience reached 1658 students and approximately 80 educators. In addition, the project reached 220 members of the public during a community event in 2019. Evaluation results indicated that resilience was not part of the environmental science curriculum prior to Hurricane Resilience and 92% of the teachers in this project had never addressed resilience in their environmental science curriculum before this project. Teachers instructing Hurricane Resilience indicated that the curriculum engaged students in concepts that impact their daily lives and the future of their community. We continue to support implementation of Hurricane Resilience in area schools and find ways to build on this foundation, assisting young people as they develop decision making strategies that will help them navigate risk and decrease vulnerability as related to hurricanes, climate change, and sea level rise in the rapidly changing Louisiana Bayou.