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.
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.
Interpreting Global, Half-hourly Cloud Observations to Promote Weather and Climate Literacy
AMNH will use NOAA weather satellite data to annotate 72 high definition (HD) video time-series global cloud cover visualizations using thermal infrared brightness temperature data acquired by five geostationary satellites and joined into global mosaics at half-hourly intervals. The HD visualizations will be used in informal and formal education activities and will be made available on the Web. These media pieces will be used for informal education activities at AMNH and 28 other informal science institutions (ISI) around the United States . The target population of visitors to subscribing ISIs is currently ten million and is projected to be over 15 million by the end of the grant. The HD visualizations will be used in formal settings, as well. Fifteen schools throughout New York City with large numbers of new English Language Learners will be targeted and professional development for teachers of ELL students will be provided through programs at AMNH as well. AMNH's effort focuses on weather and climate patterns that will be visible in the cloud-data visualizations. All viewers of the media will learn about general circulation patterns and changes in phase of water associated with the hydrologic cycle.
SOS Ocean-Atmosphere Literacy Partnership
The SOS Ocean-Atmosphere Literacy Partnership is a collaboration among the American Museum of Natural History (AMNH) in New York, NY; Maryland Science Center (MSC) in Baltimore, MD; and Science Museum of Minnesota (SMM) in St. Paul, MN. This collaboration will create two six-minute programs and two 30-minute live presentations for the spherical display systems, including NOAA's Science on a Sphere. The SMM will produce "Ocean-Atmosphere Thermodynamics"; the AMNH will produce, "Tropical Cyclones: Theory, Models, and Observations."
Exploring Earth Systems: Expanding Data Visualization Experiences for Museum Learners
The American Museum of Natural History, in association with several NOAA entities, will be creating a suite of media products employing visualization of Earth-observation data as well as associated professional development programs to expand educational experiences in informal science institutions nationwide. Interactive versions of the visualizations will also be disseminated via the AMNH website. Visualization assets will be distributed to NOAA for utilization on climate.gov and Science on a Sphere. The creation of training programs and educational materials for informal education professionals will enhance the experience and efficacy of the data visualizations as tools to understand and build stewardship of Earth systems.
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.
Envirosphere Educational Project
McWane ScienceCenter (McWSC) is a non-profit, interactive science museum committed to showing the public how science and technology enrich their lives and help them solve problems. McWSC has a goal of extending the power of experiential learning to as many people as possible, particularly those who would otherwise not be able to do so on their own. McWane’s environmental education initiative, the Envirosphere Educational Project, uses NOAA’s Science on a Sphere (SOS) to provide environmental education and workforce development programs for an estimated 200,000 people. This number includes the general public, school groups from across the region, and 2,500 children in low-income communities from across the state of Alabama. All visitors have the opportunity to go to the SOS exhibit and participate in environmental education programs led by McWSC Education Staff. Each program corresponds to one of the SOS data sets and to the Alabama Course of Study Standards for elementary and secondary schools. The intended outcomes of the Project are to make complex environmental science concepts more accessible to people of all ages; to provide educational opportunities to children who would otherwise not have access to this type of information; to partner with local and state academic institutions, school boards and municipalities to improve environmental science curricula and awareness; and to increase the visitor’s knowledge of and pique his/her interest in science and its related real-world applications.
HEARTForce: Hazard Education, Awareness & Resilience Taskforce
Communities in Colorado are increasingly experiencing major disruptions from environmental hazards, such as wildfire, flood, and drought. With this rise in hazardous events, there is a pressing need for communities to increase their resilience. An interdisciplinary team from the Cooperative Institute for Research in Environmental Sciences (CIRES) Education & Outreach Program at the University of Colorado at Boulder has developed and implemented an innovative, action-oriented youth engagement project that targets rural Colorado students, teachers, and communities. Our engagement model 15 empowers youth i) to envision community resilience through immersive scenario-based role play based using a solid understanding of the relevant science, ii) to learn about natural hazards through engaging place-based lessons, iii) to initiate conversations about hazard preparedness from within communities, and iv) to develop and implement student-led resilience action projects and participate in community resilience expos. A needs assessment disseminated to Colorado teachers guided the project team in the development of all instructional materials and allowed for customizing the content to teacher needs. The project team developed three units (one of wildfire, flood, and drought) for middle and high school students that consist of three parts: place-based data-focused lessons to introduce the hazard, a scenario-based role-play game with a focus on youth empowerment, and a design challenge for students to develop an idea for a resilience action project. Teachers can choose to teach any or all parts and invite community resilience stakeholders and practitioners to share their work with their students, and support students in designing and implementing action projects. Some teachers and students chose to host a Community Resilience Expo, where they invited the public to learn more about the hazard and what resources exist in the community to help prepare for the hazard. The project aimed to accomplished the following three objectives: 1) Increase Colorado secondary teachers’ knowledge and confidence to teach about local natural hazards, and to facilitate discussions about community resilience; 2) Increase Colorado youth’s understanding of natural hazards, their community’s vulnerability, and their involvement in resilience planning efforts, and 3) Enhance the capacity and empowerment of young people in Colorado to engage in dialogue with their peers, families, and community stakeholders about community resilience issues and identify, develop, and implement resilience actions. The project evaluation explored the efficacy of the program model and studied the impact of the project activities on students and teachers. The project filled a critical gap in Colorado’s resilience planning which does not include teachers and youth. The project was guided by partners from the NOAA RISA program Western Water Assessment, seven NOAA science advisors, and was implemented together with over 40 community partners, school partners and collaborators from across Colorado. Over the course of the four-year program, the project trained and supported 88 teachers, engaged nearly 2,000 students, and resulted in 9 Resilience Expo events across rural Colorado.