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.
Climate Resilient Flint: Building Community-Driven Climate Resilience through Hyperlocal Science-to-Civics Learning
Climate Resilient Flint seeks to develop climate resilience literacy in Flint, Michigan through neighborhood placemaking projects and green workforce education and training. High urban blight and low climate literacy are expected to leave many of the city’s residents susceptible to anticipated rises in regional summer temperatures and heavy precipitation events. Building on evidence illustrating that social cohesion, education, and a sense of place are key factors in communities’ abilities to adapt to outside shocks or stressors, this project aims to foster climate resilience by engaging underserved and vulnerable neighborhoods in a three-year science-to-civics learning program. Priority neighborhoods will participate in organized deliberative forums to discuss regional climate changes and local impacts before developing plans to repurpose vacant neighborhood lots into spaces that use passive cooling and stormwater management strategies to reduce vulnerability to heat and precipitation. As community members become aware of the connections among climate impacts, climate resilience, and community wellbeing, they will develop the knowledge to further their civic engagement in local social, sustainability, environmental, and climate issues. Additionally, Climate Resilient Flint will develop and teach an environmental literacy and job readiness curriculum for returning citizens with barriers to employment. The Empowerment Through Innovation and Knowledge (EPIK) education program will help participants build a holistic job-seeker profile by complimenting hands-on learning of green infrastructure skills with place-based environmental literacy education embedded within local and regional climate contexts. Through the EPIK curriculum, participants will develop the skills and credentials to advance their competitiveness in Michigan’s green infrastructure job market. With the goal of reducing differential access to education, knowledge, and resources, this project reflects NOAA’s education mission to further equitable environmental literacy and climate resilience capacity by employing active learning and knowledge co-production. Climate Resilient Flint is a collaborative effort between Kettering University, Environmental Transformation Movement of Flint, M.A.D.E. Institute, Neighborhood Engagement Hub, Genesee Conservation District, and NOAA’s Office of Education and Climate Program Office.
Building and Distributing SciGuides and Science Objects
In 2004, the National Science Teachers Association (NSTA) embarked on a cooperative agreement with the NOAA National Ocean Service (NOS) to develop a series of education products for teachers corresponding to topics aligned to NOAA’s mission. The products--called Science Objects and SciGuides--address teacher professional development needs, and provide classroom resources. The agreement includes both evaluative components and a means for dissemination. The topics are drawn from science education standards, specifically a draft Oceans map AAAS produced that is modeled after the benchmark maps found in the Atlas of Science Literacy (2001). The topics are also informed by the National Science Educations Standards (1996). The topics were selected to support the curriculum at the high school level. These topics were in turn aligned to science research produced by NOAA scientists. Several months after the cooperative agreement was formalized, NSTA and the NOAA Office of Education and Sustainable Development agreed to a work order to produce a single SciGuide at the middle school level that will draw on topics found in the AAAS Weather and Climate map. Production for this SciGuide is due to start in June 2005 and will be completed in November 2005. To ensure topic choices, NSTA standards experts proposed a list from which to choose. Its experts also concentrated their analysis of the maps to the grade bands that interested each line office – high school for the NOS and middle school for the OESD. The universe of topics is far from exhausted. NSTA would like to expand on these partnerships to plan, implement, and evaluate two additional Science Objects and two SciGuides at the middle level, which will be disseminated through two Symposia that take place at NSTA conventions in fall 2006 and spring 2007. The additional development will fill in two of the gaps left open in the maps, and equip even more science educators to better teach the science of the NOAA, namely oceans, coasts, charting and navigation, weather, energy flow through an ecosystem, and climate. This partnership will bring NSTA educational professionals and master teachers together in an ongoing working relationship with NOAA scientists, writers, content experts, and communications professionals.
A NOAA Spherical Display System at the Smithsonian National Zoological Park
The Smithsonian National Zoological Park (SNZP) in Washington, DC is integrating the NOAA Science on a Sphere(SOS) spherical display system into SNZP's Amazonia Science Gallery (ASG). The SOS system at ASG will be seen in person by tens of thousands of visitors each year and potentially by millions more through electronic outreach programs. The SOS system will become an integral part of the exhibit and will be used for both informal and formal science education programs at the National Zoo.
Bringing Knowledge of Planet Earth to a Wider Audience and Bringing a Diverse New Group to Careers in Science Teaching
Science On a Sphere (SOS) at Fiske Planetarium will raise awareness and understanding of Earth system science for over 30,000 visitors per year, using student docents and newly-developed, tested pedagogy. SOS will enhance Fiske’s ability to engage 3,000 university students and 30,000 K-12 students and members of the public. A student docent program will transform the traditionally passive experience of a planetarium visit into an interactive learning opportunity. The docents will be drawn from two sources: undergraduates who will be future science teachers, who we take from a selective CU program called "STEM-TP", and Hispanic university and high school students taught by Fiske's planetarium manager Francisco Salas. Docents will talk with visitors and help them understand key science issues that affect the earth, leading to more informed decision-making. Fiske will develop bilingual pedagogical material and new data sets, and share them with NOAA and SOS sites. To support the docents, and visiting students and teachers, Fiske Education Manager Traub-Metlay will lead development of explanatory materials that challenge visitors and provide context for what they are seeing. These will be translated into Spanish by Fiske Manager Salas. New data sets, contributed by faculty members, will expand the range of SOS, into space, adding solar interior models, the celestial sphere, and the cosmic background radiation from the Big Bang, along with new terrestrial data such as the worldwide distribution of forest fires. SOS will become a focal point in Fiske's longstanding tradition of teacher workshops, which are often done in cooperation with the University of Colorado and NOAA scientists and highlight NOAA’s role monitoring the earth and sun. It also will be integrated with a small suite of hands-on exhibits we are installing that explains how observations can be made in infrared, ultraviolet, and X-rays in addition to visible light. These would complement SOS, which features multi-wavelength data. Fiske and its Boulder Colorado-area partners have raised $75,000 to cover the full cost of SOS hardware, and have formal institutional commitments to long-term program development. This award from NOAA will go into materials development, evaluation, and student pay. Colorado communities are aware of NOAA’s important work and the nearby David Skaggs Center, but security measures make it difficult to visit there. Fiske is much more accessible. Fiske will improve the usefulness of all SOS sites by conducting formative evaluation to assess what kinds of SOS presentations work best with public and school audiences, giving feedback to NOAA and all SOS users.
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.
Recharge the Rain: Community Resilience through STEM Education
Arizonans face environmental hazards from extreme heat, drought, and flooding. Watershed Management Group and partner Arizona Project WET’s “Recharge the Rain” project addressed these threats by building environmental literacy among 4-12th grade teachers, students, and the public. The project centered on educator professional training and hands-on water harvesting skills. Participants moved through a continuum from awareness to knowledge gain, to conceptual understanding, and ultimately to action. Utilizing data and experts from NOAA assets, we strengthened the capacity of residents to be resilient to our local climate threats. This 4.5 year project 1) developed and immersed 14,452 students in STEAM curriculum incorporating water harvesting that increases understanding of earth systems, engineering design, and weather; 2) applied systems thinking to train 52 teachers and 191 community volunteers in water harvesting practices and citizen-science data collection; 3) involved 8,289 Tucson community members in water harvesting principles; 4) implemented 21 teacher/student-led water harvesting projects at schools; and 5) celebrated our community work with student artwork. RtR became a call for action and an inspiration for change and adaptation to extreme weather conditions in the urban environments of the Sonoran Desert putting Tucson at the core of understanding climate, adaptation, and community.