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.
Environmental Literacy for Alaskan Climate Stewards (ELACS)
The Environmental Literacy for Alaska Climate Stewards (ELACS) project involves K-12 Alaskan students from the Chugach School District and the Kenai Peninsula Borough School District in studies and activities to increase environmental and climate literacy and ultimately community resilience. Throughout the four-year project, students and teachers will work with scientists and experts from their communities, National Oceanic and Atmospheric Administration, Alaska Ocean Observing System, Local Environmental Observer Network, Kachemak Bay Research Reserve, University of Alaska Anchorage, University of Alaska Fairbanks, Build A Buoy Project, and Global Learning and Observations to Benefit the Earth Program. Rural Alaskan students live in some of the most vulnerable regions of the planet, areas that are highly susceptible to the impacts of climate change. Alaska has warmed twice as fast as the rest of the nation, bringing widespread impacts. Sea ice is rapidly receding, and glaciers are shrinking. Thawing permafrost is leading to more wildfire and affecting infrastructure and wildlife habitat. Rising ocean temperatures and acidification will alter valuable marine fisheries. The objectives of the Environmental Literacy for Alaskan Climate Stewards project are to provide rural, K-12 Alaska students and teachers in Alaskan Native villages with knowledge and opportunities that will help build understanding of local climate change impacts and to increase overall climate literacy and contribute to community resilience. Students and teachers will participate in first-hand experiences of environmental monitoring, data sampling through a locally relevant citizen science project, and by building ocean observation systems. The project has four main action and outcome areas: Professional development and monthly ongoing project support – including school-site delivery and workshops at the NOAA Lab facilities in Kachemak Bay, Center for Alaskan Coastal Studies and Anchorage. Classroom instruction that engages the students in meaningful, innovative, place-based, project-based learning, and citizen science activities geared around site and community needs. Community Engagement – which includes interviews with community members, involvement in community-based environmental monitoring, and through annual student events. Application of Knowledge – Students will discuss components of the Weather and Climate Tool-Kit with community members, elders, and leaders, focusing on climate-related problems, and action planning for mitigation and adaptation. Students can share active research regarding impacts and available resources. This project will be orchestrated through the Chugach School District, which serves rural students from all over the state of Alaska through their Voyages residential, two-week phase programs, as well as the three Prince William Sound villages of Chenega Bay, Whittier, and Tatitlek, and an extensive home school services program. The coastal, native Alaskan villages of Seldovia, Port Graham, Tyonek, and Nanwalek across Kachemak Bay, in the Kenai Peninsula Borough School District will be included in this project. ELACS directly connects to NOAA’s educational mission, as it will help the target population understand and predict changes in climate, weather, oceans, and coasts through project objectives and activities. This project will promote the students’ stewardship and deeper understanding of their environment and the changes happening at a local and global level.
Supporting NOAA's Mission by Improving Pre-college Teachers' Knowledge of the Atmospheric and Ocean Sciences
The American Meteorological Society (AMS) Education Program is continuing its development and implementation of a highly innovative NOAA/AMS partnership built on the recognition that teachers are key to realizing NOAA's and AMS's shared vision of an environmentally literate public and a geoscience workforce that reflects the human diversity of American society. This proposed phase of the program focuses on the crucial professional development of pre-college teachers in the pedagogical content knowledge of the essential principles and fundamental concepts of the atmospheric and ocean sciences. Project Activities and Expected Outcomes: Central to the program is the offering of the AMS DataStreme Ocean and DataStreme Atmosphere courses for in-service teachers and the content-similar undergraduate AMS Online Weather Studies and Online Ocean Studies courses for pre-service teachers. All AMS courses include delivery of engaging inquiry-based investigations of the ocean and atmospheric environments employing Internet-delivered NOAA products and services. The proposed project will expand a cadre of pre-college teachers well trained in the essential principles and fundamental concepts, online data sources, and pedagogical issues related to the teaching of atmospheric and ocean sciences from an Earth system perspective. Participating in-service teachers are committed to changing the way they teach atmospheric or oceanographic topics, will serve as resource agents in their schools, and are expected to provide leadership in science curriculum reform at local, state, and national levels. During this proposed funding, AMS DataStreme courses will train 4,000 teachers via semester-long graduate courses at 50 or more sites nationally via Local Implementation Teams (LITs). Within two years of training, in-service teachers will directly impact 40,000 other teachers and 1,400,000 pre-college students. AMS undergraduate courses with similar pedagogical and content underpinnings will impact thousands of pre-service teachers on hundreds of campuses. Rationale: The AMS, working closely with NOAA line offices and personnel, outstanding pre-college teachers, and science educators around the country, is transforming Earth system science education across the pre-college curriculum by addressing what and how teachers teach. Trained content-competent teachers are essential to realizing a scientifically literate public and creating a high-quality geoscience workforce that reflects and benefits from the diversity of American society. The AMS recognizes that teachers must experience learning that incorporates an Earth system science perspective and develop pedagogical content knowledge if they are to more effectively deliver authentic inquiry-based instruction in their classrooms. Major Project Partners: All NOAA line offices have been and will continue to be partners as AMS assists NOAA in advancing its goals of environmental assessment and prediction, protection of life and property, and the fostering of global environmental stewardship. The State University of New York grants tuition-waived graduate-level credit for the DataStreme courses.
Citizen Science, Civics, and Resilient Communities (CSCRC)
The "Citizen Science, Civics, and Resilient Communities" (CSCRC) education project led by the Museum of Science, Boston in partnership with Arizona State University and Northeastern University will increase resilience to extreme weather and environmental hazards through citizen-created data, local knowledge, and community values. Building upon previous funding from NOAA in which a set of modules were created and used to engage participants in active learning and resilience planning about four natural hazards (heat waves, sea level rise, extreme precipitation, and drought), the museum and its partners will add participatory citizen science activities selected in close collaboration with resilience planners. This new and expanded project will involve diverse groups of participants at 28 U.S. science centers collecting, analyzing, and sharing data relevant to local resilience planners, learning about vulnerabilities through visualizations of geospatial data and deliberative problem-solving, sharing perspectives about resilience strategies and their societal and environmental trade-offs, formulating community resilience plans, and presenting findings and recommendations to resilience planners and publics. The project aims to formulate a theory of action that sustains engagement and increases environmental literacy among participants, contributes citizen-created data, knowledge, and values to resilience planning, and increases capacity among science centers for including publics in resilience planning and data collection.
Sailing Elementary Teachers Towards Ocean Literacy Using Familiar Water Resources
This project plans to increase elementary and undergraduate ocean science and related Great Lakes science literacy that aligns with the Michigan Curriculum, the national science standards, and the Ocean Literacy Essential Principles and Fundamental Concepts. We will 1) develop an elementary storybook and other elementary classroom materials that support ocean and Great Lakes literacy, 2) train pre-service elementary teachers to use this Storybook, 3) develop undergraduate activities that support the NOAA Education Plan and Ocean Literacy in teacher education courses at Eastern Michigan University (EMU), and 4) train teachers in Detroit and Dexter (MI) and Golden (CO) to use an elementary storybook and related activities that support Ocean Literacy. The University Corporation for Atmospheric Research and oceanographic experts at EMU and the Great Lakes Environmental Research Laboratory (GLERL) will partner with us to develop the elementary storybook. This elementary resource will be freely available to all teachers, via the internet (see http://www.windows2universe.org/teacher_resources/ocean_education/curre…). Our second objective is that teachers will relate ocean and Great Lakes science to theirs and their students' lives. We will accomplish this by 1) producing teacher-friendly web resources that make Great Lakes data from GLERL accessible for use by elementary teachers and 2) teaching pre-service teachers to interpret these data during undergraduate, inquiry activities at EMU. Our third objective is to measure environmental, ocean and Great Lakes literacy among pre-service teachers and their students before and after implementation of targeted instruction. We will accomplish this via 1) assessing pre- and in-service teachers' content knowledge and ability to apply content knowledge in ocean and Great Lakes science, 2) assessing elementary children for content knowledge and ability to apply content knowledge in ocean and Great Lakes science, 3) performance assessments of pre- and in-service teachers' abilities to interpret environmental data, 4) standardized tests of Earth Science content knowledge, and 5) surveys of pre- and in-service teachers' attitudes towards ocean literacy and supporting materials.
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.