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.
Resources for Climate Literacy Instruction
Project 2061, the science education reform initiative of the American Association for the Advancement of Sciences (AAAS), proposes to identify and translate into classroom materials a range of real-world phenomena (e.g., objects, systems, events) and representations (e.g., models, diagrams, simulations) based largely on data from NOAA's Earth observation systems. These materials will be designed to help increase middle school students' understanding of essential ideas about weather and climate. Our objective is to provide a wide audience of teachers, curriculum developers, teacher education faculty, and professional development providers with online access to a set of high-quality and interrelated activities built around Earth, ocean, and atmospheric phenomena and representations that can supplement or enrich their existing lessons or be integrated into new curriculum materials. This collection of climate literacy materials will be carefully aligned to the learning goals in Climate Literacy: the Essential Principles of Climate Science and in national and state science content standards. By disseminating this online collection widely within the science education community, we also aim to expand the use of NOAA-related scientific data, simulations, animations, and other types of representations in middle school curriculum materials and instruction and to stimulate research on how these materials can be used most effectively.
Promoting Environmental Literacy through Teacher Professional Development Workshops and Climate Change Student Summits (C2S2)
This project will provide K-12 teacher professional development and focused student activities to promote environmental literacy using the essential principles of ocean and climate literacy. In partnerships with NOAA entities, school districts, and museums across the United States, we will provide: (1) high-energy face-to-face professional development workshops for teachers, facilitated by experienced educators; (2) ongoing support and interactions among teachers and students through an online collaborative website, or group-hub; and, (3) high-profile, focused events in which students interact with scientists and the public to share what they've learned, both locally and internationally. The primary goal of this project is to increase the environmental literacy of K-12 teachers and their students from school districts that are part of existing science museum networks. Each summer, we will work with 4 to 6 partner museums to invite 30 to 40 teachers from their local school districts to take part in a pair of workshops.
NOAA Earth System Science Courses: Building on the Earth System Science Education Alliance (ESSEA)
The Earth System Science Education Alliance (ESSEA) is a successful teacher professional development program enhancing K-12 teachers' environmental literacy and ability to teach Earth System Science. The ESSEA 40+ educational institution consortium is supporting universities and other educational institutions in teacher preparation and professional development for pre-service and in-service K-12 teachers. This NOAA-funded project enhances and builds on this foundation by: 1) Using the ESSEA online courses as a model to introduce newly upgraded Earth system science undergraduate and graduate courses for teachers; 2) Introducing new Earth System Science data, analysis tools and educational resources to support the teacher courses; and 3) Disseminating model teaching practices and program success through annual conferences, continuing support, and presentations at geoscience and education conferences.
Science on a Sphere - Upgrade 2009
This project works to: (1) Continue to develop software that allows a docent to easily control Science on a Sphere from a small touchpad computer while interacting with visitors. (2) Continue to develop software that allows easy "drag and drop" construction of playlists. (3) Put kiosk control of the sphere, already developed as a student project, into a real kiosk. (4) Assess the use of wireless response devices or "clickers" to enhance audience interaction, learning, and enjoyment, and gather information from visitor responses and share all these improvements with the network. (5) Improve the resolution of the 4 projectors of our SOS installation, in anticipation of new data on the moon and Mars coming to our university, which has been selected to lead NASA moon and Mars missions, and add flat screen TVs for the presentation of auxiliary data.