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.
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.
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.
HEARTForce: Hazard Education, Awareness & Resilience Taskforce
Communities in Colorado are increasingly experiencing major disruptions from environmental hazards, such as fire, flood, drought and extreme heat. With this rise in hazardous events, there is a pressing need for communities 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 is developing and implementing an innovative, action-oriented youth engagement project targeting rural Colorado students, teachers and communities. Our engagement model empowers youth i) to envision community resilience through immersive scenario-based role play based on a solid understanding of the relevant science, ii) to learn about natural hazards through engaging Colorado-focused lessons, iii) to initiate conversations about hazard preparedness from within communities, and iv) to develop and implement student-led resilience action projects. The project team is developing instructional materials for middle and high school students: four lesson plans focused on different hazards (fire, flood, drought, extreme heat), four complementary scenario-based role-play games with a focus on youth empowerment and a teacher workshop based on these materials. Each school implementation follows a sequence in which the lesson plan activities are conducted, followed by a scenario-based role play game and reflection. Building on their experience with the game, students develop resilience strategies for their community and present those at a community Resilience Expo. The project has 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. A needs assessment disseminated to Colorado teachers guides the project team in the development of all instructional materials and allows for customizing the content to teacher needs. The project evaluation explores the efficacy of the program model and studies the impact of the project activities on students and teachers. Specifically, the evaluation studies students’ confidence and ability to engage in dialogue around community resilience, level to which students increase their understanding of natural hazards and resilience planning, and the ways in which teachers increase their content knowledge and confidence in teaching about natural hazards. The project fills a critical gap in Colorado’s resilience planning which does not include teachers and youth. The project is guided by partners from the NOAA RISA program Western Water Assessment, seven NOAA science advisors, Science on the Sphere collaborators, and is being implemented together with over 20 community partners, school partners and collaborators from across Colorado. Over the course of the three-year program, the project activities will train and support 140 teachers, engage 400+ students and result in 11 Resilience Expo events across Colorado, from primarily rural communities. The instructional units and the games will be used in classrooms with 600+ students.