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.
National Model Earth Science Lab Course
A collaboration of five key states, an array of scientists and educators, and an experienced science curriculum team will develop and establish a National Model Earth Science Lab Course, providing standards and exemplary activities that will reach hundreds of thousands of students annually. The team will create a lab handbook with guidelines and exemplary activities in Earth system science and environmental literacy. All materials will be published on the web and available for free to teachers and students. The initial set of four exemplary labs will engage students in field experiences, classroom experiments and active use of data and computer visualizations dealing with oceans, atmosphere and other NOAA domains. These hands-on learning experiences will help students develop environmental literacy, build deep understandings of Earth as a system, and apply scientific thinking, problem-solving and data analysis. The participating states view this as filling a crucial gap in the approval and implementation of Earth science as a standard high school lab science. This project builds on planning done in a series of projects: National Conference on the Revolution in Earth Science Education, State Alliances for Earth Science Education, and Planning Grant for Earth System Science as a High School Lab Science. This National Model responds directly to essential needs expressed by the states. The labs will comply with national and state standards for Earth science and meet requirements for a true lab science course. This project is bold and ambitious, but also essential for states striving to strengthen their high school Earth science offerings, and it is a practical response to NOAA's need to infuse its resources into the fabric of public Earth science education.
DataStreme Ocean: AMS/NOAA Teacher Enhancement
This project provides for the continued development of a national cadre of precollege teachers competent in ocean and coastal environmental science content and appropriate pedagogy who serve as Ocean Education Resource Teachers and leaders in their local areas and home states. In recognition of the vital role of teachers in promoting environmental literacy, the American Meteorological Society (AMS) proposes the ongoing offering and continual development of its in-service precollege teacher enhancement course entitled DataStreme Ocean (see https://www.ametsoc.org/amsedu/ds-ocean/home.html). The semester-long, three-credit hour graduate course will be offered at up to 25 sites nationally via three-member Local Implementation Teams (LITs). About 75 specially trained precollege teachers, college/university professors, and scientists serve on LITs. Project institutional partners include NOAA and the State University of New York at Brockport. DataStreme Ocean is partially delivered online and focuses on investigations of the ocean and coastal environment emphasizing the use of the most current NOAA data available on the Internet. Offered fall and spring semesters, 400 teachers will be trained during the 2005-06 school year. As part of their training, participants develop Plans of Action outlining their roles as Ocean Education Resource Teachers in their schools.
Community Partnership for Resilience
The New England Aquarium will work with the Metropolitan Area Planning Council to establish Community Partnerships for Resilience (CPR), which will create community partnerships in three Boston-area communities that face severe risk from a changing climate – Chelsea, Hull, and Lynn, Massachusetts. CPR will facilitate ‘Community Teams’ of local professionals with diverse and relevant expertise in climate science, engineering, community planning and community action, and representatives from local schools or school-based educational programs serving youth in grades 4 through 8. Each team will identify the most critical, climate-related issues for their area that would benefit from public involvement and understanding. Then they will inform the design of learning activities and youth-focused climate resilience toolkits; serve as resources for teachers and students; and facilitate student-led projects to engage parents, peers, and other community members. Students themselves represent a key constituency – they will be most directly impacted by future changes and they will need civic capacity to foster positive change. Project evaluation will assess student learning and indicators of community engagement to provide both formative feedback and summative assessment of the project impacts.