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.
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.
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.
AMS/NOAA Cooperative Program for Earth System Education (CPESE)
The Cooperative Program for Earth System Education (CPESE) – with assistance from the National Oceanic and Atmospheric Administration’s (NOAA) National Weather Service and the State University of New York (SUNY) at Brockport – is a major collaboration between the American Meteorological Society (AMS) and NOAA that advances NOAA’s mission of Science, Service, and Stewardship by sharing knowledge and information about weather, climate, and the ocean. CPESE facilitates national offering of the DataStreme Atmosphere and DataStreme Ocean courses and supports Project ATMOSPHERE leadership training workshops at the National Weather Service Training Center (Kansas City) for in-service K-12 educators. Over five years, about 3,000 teacher participants will earn graduate credits through a partnership with SUNY at Brockport and become confident Earth science educators capable of implementing engaging, pedagogically appropriate activities in their classrooms. These educators are expected to impact more than 30,000 additional educators and one million K-12 students. In addition to the professional development for in-service K-12 educators, CPESE enables the AMS to design curricula for introductory college-level Earth science courses, which help prepare pre-service educators. CPESE is built on a shared vision that highly trained educators are key to an environmentally and geo-scientifically literate public.
AMS/NOAA Cooperative Program for Earth System Education (CPESE)
The American Meteorological Society (AMS) and National Oceanic and Atmospheric Administration (NOAA) work together to share knowledge and information about weather and climate, ocean, and coasts with educators and students across the country. The goal of this effort is to build a scientifically informed and engaged society and a diverse STEM workforce prepared to respond to environmental hazards. AMS facilitates a national offering of the DataStreme Atmosphere and DataStreme Ocean courses and supports Project ATMOSPHERE leadership training workshops at the National Weather Service Training Center for in-service K-12 educators, with focus on those at schools with considerable numbers of students underrepresented in STEM. By 2023, about 2,100 educators will earn graduate credits through a partnership with California University of Pennsylvania and become confident Earth science educators. These educators are expected to impact more than 20,000 additional educators and several hundred thousand K-12 students.
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.
Hurricanes and Climate Change: Local Impacts and Global Systems
The Miami Science Museum, in collaboration with Ideum and the Institute for Learning Innovation, is designing and developing an interactive multi-user exhibit that allows visitors to explore the global dimensions and local impacts of climate change. The exhibit will raise public understanding about the underlying science, the human causes, and the potential impacts of climate change by combining the attraction of a 4-foot spherical display with a user-controlled interface that lets visitors control the sphere and choose from a range of global and local content they wish to explore. A particular focus is on climate-related impacts on coastal communities, including the dangers posed by rising sea level and the possibility of more intense hurricanes. The project emphasizes engagement of diverse, multigenerational audiences through development of an interface that is fully bilingual and that promotes social interaction. The open-source learning module will be adaptable by other museums, to explore climate impacts specific to their region.
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.
Albert Einstein Distinguished Educator Fellowship Program
The Triangle Coalition for Science and Technology Education provides a competitive program that selects & provides financial assistance to current science and math teachers for 10-month fellowship in the federal government. This project would allow NOAA to continue to be one of the host agencies, with one teacher fellow hosted in FY08, and up to two teacher fellows in FY09 and FY10. These teacher fellows will work with NOAA's Office of Education to learn about how federal science and math education policy and programs are structured. The Triangle Coalition for Science and Technology Education provides coordinated training and professional development activities and trips for the fellows that work in up to 10 different federal agencies.
Albert Einstein Distinguished Educator Fellowship Program
The Albert Einstein Distinguished Educator Fellowship Program was enacted by Congress and is administered by the Department of Energy-Office of Science and managed by the Triangle Coalition for Science and Technology Education. Participation includes the Department of Energy (DOE), NASA, the National Science Foundation (NSF), the National Institutes of Health (NIH), the National Institute of Standards and Technology (NIST), and the National Oceanic and Atmospheric Administration (NOAA). The program provides an opportunity for current public or private elementary and secondary mathematics, technology, and science classroom teachers with demonstrated excellence in teaching an opportunity to serve in the national public policy arena. This proposal seeks funds to place Einstein Fellows at NOAA over the five-year period 2010-2015. The NOAA Einstein Fellows will support NOAA's education vision of an environmentally literate public and a diverse workforce who will use NOAA's products and services to make informed decisions that enable responsible action. The Fellows provide practical insight in establishing and operating education programs and they provide "real world" perspectives to program managers developing or managing education programs.
Summer Research Program for Science Teachers
This project that will increase the knowledge and research skills of middle and high school earth science and environmental science teachers. By doing so, these teachers will be better able to elevate their students' overall interest and literacy in science, improve their understanding of ecosystem and sustainable development principles, and improve their stewardship of ecosystems. The teachers will learn how the tools, techniques, and information services are used by NOAA and its partners to improve ecosystem-based management. This will enable students to appreciate better the dynamism and excitement of these disciplines. This program targets schools with under-served minority populations.
Summer Research Program for Science Teachers
This project that will increase the knowledge and research skills of middle and high school earth science and environmental science teachers. By doing so, these teachers will be better able to elevate their students' overall interest and literacy in science, improve their understanding of ecosystem and sustainable development principles, and improve their stewardship of ecosystems. The teachers will learn how the tools, techniques, and information services are used by NOAA and its partners to improve ecosystem-based management. This will enable students to appreciate better the dynamism and excitement of these disciplines. This program targets schools with under-served minority populations.
Interpretation of Real-Time Weather and Climate Data for Spherical Displays
The Interpretation of Real-time Weather and Climate for Spherical Displays (EarthNow) project utilizes the Science on a Sphere (SOS) Network to enable meaningful interpretation of real-time weather and climate data by museum docents and visitors viewing SOS exhibits nationwide. The project will generate and provide real-time NOAA weather, climate and ocean data to the SOS Network along with appropriate training for docents. It will also provide data interpretation summaries, data discussions and concise talking points on a regularly updated blog. This project is being implemented by a collaborative team of two weather and climate centers of NOAA/NESDIS: the Cooperative Institute for Meteorological Satellite Studies (CIMSS) and Cooperative Institute for Climate and Satellites (CICS), in association with the NOAA Environmental Visualization Laboratory, the I.M. Systems Group, and the Maryland Science Center.
GLOBE Program
In the project entitled "The GLOBE Program 2010: Collaborative Environmental Research at Local to Global Scales", the University Corporation for Atmospheric Research (UCAR) will improve the functionality of the GLOBE Program (www.globe.gov) by providing: (1) new methods, tools, and services to enhance GLOBE Partner and teacher abilities to facilitate inquiry-based learning and student research, (2) initial pilot testing and assessment of student and teacher learning activities and events related to Climate Science research, (3) improvements in GLOBE's technology infrastructure and data systems (e.g. database, social networking, information management) to support collaborations between students, scientists, and teachers, and (4) development of a robust evaluation plan. In addition, the UCAR will continue to provide support to the worldwide GLOBE community, as well as program management and timely communication with program sponsors.
R4Ed: Rigor, Relevance, and Relationships in Resilience Education
Rigor, Relevance, and Relationships in Coastal Louisiana Resilience Education (R4Ed) helped high school students in coastal Louisiana learn through data analysis about the science of hurricanes in a warming world, learn through local stories about impacts of hurricanes, and then identify resilient actions that could help keep their households and their communities safe. To accomplish this the UCAR Center for Science Education worked with the NCAR Capacity Center for Climate and Weather Extremes and the South Louisiana Wetlands Discovery Center to develop a high school curriculum called Hurricane Resilience. During 20 days of instruction, students make connections between the science of hurricanes, how they affect their community and region, and how we can plan for a more resilient future. Making local connections, students develop an understanding of 1) the risks that their community faces now and in the future due to hurricanes and tropical storms, 2) how sea level rise increases the risk, and 3) how our actions can help us be less vulnerable and more resilient. The curriculum unit aims to empower high school students to have a voice in resilience planning and understand the relationship between the science of hurricanes and the local impacts these storms have on people and places. Hurricane Resilience is available online and adaptable for high schools in any coastal location where hurricanes pose a threat. The R4Ed project worked with science curriculum coordinators in Terrebonne and Lafourche Parishes, Louisiana, to ensure that the curriculum would meet the needs of their districts. We pilot tested the curriculum in three high school environmental science classes at South Terrebonne High School in Houma, Louisiana. The final curriculum was modified to work for in-person, hybrid, and virtual learning formats during the pandemic. The implementation was scaled up to serve 600 students instructed by 12 teachers in Terrebonne and Lafourche Parishes, LA, during the 2020-2021 school year and then approximately 1000 students during the 2021-2022 school year. Teacher professional development workshops instructed virtually when Covid-19 risk was high and in-person when risk was lower, oriented teachers to the lessons. Over the course of this project, Hurricane Resilience reached 1658 students and approximately 80 educators. In addition, the project reached 220 members of the public during a community event in 2019. Evaluation results indicated that resilience was not part of the environmental science curriculum prior to Hurricane Resilience and 92% of the teachers in this project had never addressed resilience in their environmental science curriculum before this project. Teachers instructing Hurricane Resilience indicated that the curriculum engaged students in concepts that impact their daily lives and the future of their community. We continue to support implementation of Hurricane Resilience in area schools and find ways to build on this foundation, assisting young people as they develop decision making strategies that will help them navigate risk and decrease vulnerability as related to hurricanes, climate change, and sea level rise in the rapidly changing Louisiana Bayou.
Advancing Climate Literacy through Investment in In-service and Pre-service Science Educators (ACLIPSE)
The ACLIPSE project leveraged NOAA assets including the NOAA-funded Ocean Sciences Sequence for Grades 6–8: The Ocean–Atmosphere Connection and Climate Change, data from NOAA-supported ocean, estuarine and atmospheric observing networks, and NOAA-affiliated scientists. ACLIPSE developed strategies for incorporating real-time ocean observing data into climate and ocean science education; designed and implemented an undergraduate curriculum in climate science for pre-service (student) teachers at multiple universities (http://mare.lawrencehallofscience.org/college-courses/ACLIPSE); offered a variety of workshops for teachers and educators across the country and at National Estuarine Research Reserves (NERRs); and developed materials specifically designed to provide professional learning and instructional materials for middle and high school teachers to use with their students and other learners (http://mare.lawrencehallofscience.org/curriculum/climate-data-aclipse-a…). The professional learning workshops for local teachers and NERR Education Coordinators and research staff (i.e., System Wide Monitoring Program (SWMP) Technicians) were located at five NERR sites representing different regions of the US, including the Pacific Northwest (Kachemak Bay NERR, Alaska and Padilla Bay NERR, WA), central West Coast (San Francisco NERR, CA), Southeast (GTM NERR, FL), and Northeast/Mid-Atlantic (Jacques Cousteau NERR, NJ). Resources and instructional materials focused on climate and ocean acidification were provided to all participants for learning about and teaching these important and relevant content areas, and as the context for teaching about and applying current teaching and learning research. Emphasis was placed on helping the teacher audiences to becoming more expert on how to use NOAA monitoring data in the classroom in authentic and engaging ways to build teacher and student data skills. NERR educators and their local in-service teachers were provided with professional learning opportunities and a collection of activities providing online data, place-based, locally relevant observing data, NGSS teaching and learning pedagogy, and climate change topics. The project built capacity of formal and informal science educators by providing (1) opportunities to become knowledgeable about global environmental change and real-time data; (2) exposure to place-based connections with the ocean through technological observing systems; and (3) materials and expertise to apply their learning to teaching practice in a long-term, sustainable manner. ACLIPSE instructional materials are based on the principle that real-time environmental data is a valuable tool for providing students with opportunities for self-directed exploration of the natural world. Students engaging in these activities gain a deeper understanding of carbon cycling, ocean acidification, and other phenomena related to climate change. These activities were designed with the three-dimensional approach to teaching in mind (e.g. NGSS-designed), and also use a data literacy framework to build educators and their learners’ skills in using data visualizations. The materials for informal educators and grades 6-8 teachers can also be accessed from the NOAA Education site, Classroom- Ready Data Resources, Climate & Data ACLIPSE Activities at https://www.noaa.gov/education/resource-collections/data/classroom-ready. Partners in the project included Rutgers University, Padilla Bay National Estuarine Research Reserve, Florida State University, California State University East Bay, Louisiana State University, and multiple NERR sites and Education Coordinators across the country and their local secondary teachers.
Advancing Climate Literacy through Investment in In-service and Pre-service Science Educators (ACLIPSE)
This three-year project leverages NOAA assets including the NOAA-funded Ocean Sciences Sequence for Grades 6–8: The Ocean–Atmosphere Connection and Climate Change, data from NOAA-supported ocean, estuarine and atmospheric observing networks, and NOAA-affiliated scientists. The goal is to design and implement a complementary suite of materials, courses and workshops for university teacher educators to use with middle school in-service and preservice teachers. The project builds capacity of formal science educators by providing (1) opportunities to become knowledgeable about global environmental change and real-time data; (2) exposure to different climate knowledge systems through place-based connections with the ocean through technological and/or indigenous observing systems; and (3) materials and expertise to apply their learning to teaching practice in a long-term, sustainable manner. Educational partners in the project include Louisiana State University, Florida State University, California State University East Bay, and middle school teachers from Tribal communities in Washington state.