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.
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.
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.
Signals of Spring - ACES [Animals in Curriculum-bases Ecosystem Studies]
Signals of Spring ACES (Animals in Curriculum-based Ecosystem Studies), will use NOAA remote sensing data with curriculum-based activities for middle and high school students (see http://www.signalsofspring.net/aces/). Students use Earth imagery to explain the movement of animals that are tracked by satellite with NOAA's ARGOS monitoring system. The project addresses the issues surrounding the animals and environments of NOAA's National Marine Sanctuaries (NMS). Comprehensive teacher professional development will be delivered both onsite and online for 250 teachers. The project will impact 20,000 students and parents. Ten curriculum modules will be delivered to students, accompanied with an investigation of El Nino and animals, as well as ocean life and global climate change. ACES will provide classrooms with the curricular area of conservation and the ecological issues surrounding the ocean, using marine animals as the engaging component. Students will apply NOAA Earth data to animal migrations and the critical environmental issues that face these animals that are of depleting populations. Once teachers and students have the necessary skills to interpret data, students will perform the ACES investigations.
Building Ocean Literacy in our youth through unique learning experiences in our National Marine Sanctuaries.
This project aims to develop and implement residential and non-residential science camp and summer camp programs and related activities to over 1500 youth and teachers from 8 elementary and middle schools. NOAA's Multicultural Education for Resource Issues Threatening Oceans (MERITO) program will serve as a key outreach mechanism to reach underserved youth and their families. The proposed project will utilize existing ocean educational materials, including those developed by NOAA, in experiential learning programs for youth through Camp SEA (Science, Education, Adventure) Lab. The two major goals of the project are: (1) to develop and implement marine-oriented outdoor science and summer camps in close collaboration with the Monterey Bay National Marine Sanctuary, resulting in an effective model for dissemination of the Ocean Literacy Essential Principles and Fundamental Concepts to large numbers of youth and their teachers; and 2) to develop a model and a feasibility plan to implement the program across a broader geographical area, e.g. through other National Marine Sanctuaries.
Ocean Science - Formal and Informal Education for Ocean Literacy
The Ocean Science project integrates the Ocean Literacy Essential Principles and Fundamental Concepts into a Western Washington region-wide, coordinated program of formal and informal education consisting of: 1. Teacher professional development in the ocean sciences to integrate the Ocean Literacy Essential Principles and Fundamental Concepts into inquiry-based marine science education and instruction; 2. Evaluation and re-alignment of existing Sound Science ecosystems curricula into Ocean Science, incorporating NOAA data and promoting the Ocean Literacy Essential Principles and Fundamental Concepts; 3. Classroom programs, beach field investigations, and on-site programs at the Seattle Aquarium of the Olympic Coast national Marine Sanctuary's Olympic Coast Discovery Center for grades 4-5 students, their parents and teachers; 4. Parent training in ocean science content, the Ocean Literacy Essential Principles and Fundamental Concepts, and inquiry-based methods for supporting their children's science education; 5. Informal education for the general public via an interactive learning station linked to the Window on Washington Waters exhibit and designed to innovatively use NOAA data and information (videos, computer simulations and other creative media) to increase and evaluate ocean literacy in adults and children. Window on Washington Waters displays the outer coast marine environments and sea life of the Olympic Coast National Marine Sanctuary.
The Global Decision Room: An Interactive Science-on-a-Sphere Installation
The Orlando Science Center has assembled a project team to create a unique environmental science learning tool: THE GLOBAL DECISION ROOM. Founded on, and enhancing, the Science On a Sphere (SOS) digital globe, the Global Decision Room is an interactive theatre that puts visitors in the role of being decision makers on behalf of the behavior of large populations on the planet. The results of global decisions relating to the environment are seen played out on SOS. The interactive strategy that is created for the Global Decision Room will be flexible and well integrated into the SOS software platform, making it possible to design other educational story scenarios that can use the same system. The Global Decision Room is designed as a multi-use, high impact, exciting content delivery platform. This proposal is based on a well developed initial educational premise, but the resulting construction of the Global Decision Room will be the perfect environment for other educational topics of interest to NOAA's outreach strategy. As new datasets become available in the future, new interactive stories will be developed for the Global Decision Room. The Orlando project brings with it significant additional funding from the Department of Education, the Department of Energy, the Orlando Utilities Commission, and the Florida Hydrogen Initiative, which will greatly leverage the funding from NOAA. Partners in the project include a strong technical team from the University of Central Florida and the Florida Solar Energy Center, interactive digital media experts from the Institute for Simulation and Training, the creative design team "i.d.e.a.s." located at Disney-MGM Studios, and the XhibitNet interactive multimedia design team.
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.
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.
Teen Advocates for Community and Environmental Sustainability (Teen ACES)
The Museum of Science and Industry, Chicago (MSI) developed museum-based education resources to engage high school-age youth in the exploration of climate literacy and Earth systems science through its Teen ACES (Teen Advocates for Community and Environmental Sustainability) project. As the future leaders who will make decisions about the issues they face in their communities, youth participants were positioned to act as advocates for establishing resilient communities in the Midwest. The project utilized a variety of resources, including NOAA Science On a Sphere® (SOS) technology and datasets, Great Lakes and local climate assets from the Midwest Regional Climate Center and Illinois-Indiana Sea Grant, and existing local planning guides to develop museum-based youth programming. Teens explored environmental hazards including severe weather events and temperature extremes and considered the impact of the Great Lakes on regional climate. The Chicago Metropolitan Agency for Planning, Resilient Chicago, the Institute of Environmental Sustainability at Loyola University Chicago, and the South Metropolitan Higher Education Consortium advised on the project to support the integration of municipal resiliency plans and their related adaptation and mitigation measures into the program. After completing a 30-hour course with MSI, teen participants had the opportunity to facilitate SOS® experiences for museum guests. Teens also shared their learning with the Chicago community through programs at Chicago Public Library branches and Chicago Park District sites. The project revised content for use in 102 after-school science clubs for students from diverse communities across the Chicago area. Educational resources and experiences created through this grant reached nearly 150,000 students, educators and guests over four years.
Preparing Norfolk Area Students for America’s Second Highest Sea Level Rise
Children in the Norfolk, Va., area will inherit the highest sea level rise on the East Coast, second to New Orleans. In response, the non-profit Elizabeth River Project educated 25,333 students, 2,586 teachers, 63 Youth Resilience Leaders and 5 NEW River Ambassadors through a high school Youth Conservation Intern program for at-risk students. In addition, 180 River Star Schools and 13 new Resilient River Star Schools were recognized for implementing environmental projects addressing restoration, conservation, flooding and reducing their carbon footprint. The Elizabeth River Project prepared one of the first comprehensive youth education programs on resilience on this coast. The Elizabeth River Project, working since 1993 to restore the environmental health of the urban Elizabeth River, deployed its Dominion Energy Learning Barge, “America’s Greenest Vessel,” and its new urban park, Paradise Creek Nature Park, to empower K-12 students over three years to become informed decision makers and environmental stewards, prepared to adapt to rising seas. The project reached under-served schools in Norfolk and adjoining Portsmouth, Virginia. The lead science partner was Old Dominion University, on the forefront of climate change research and the University of Virginia for evaluation of education programs. Other partners included the Chrysler Museum of Art, ground zero for street flooding that has become routine in Norfolk. Elizabeth River Project’s first Youth Resilient Strategy Resilient Youth – South Hampton Roads A Pioneer Strategy of Hope and Action to Prepare Those Who Will Inherit Rising Seas. This plan is the first in America to call on educators, both in our schools and in the community, to help our youth prepare to inherit these extraordinary and increasing challenges. The youth plan will complement Norfolk Resilient City, a call to adults to prepare for rising seas and related challenges with a vision for our children to become hopeful, resilient leaders who innovate and persevere to safeguard our community as our lives change with a changing environment. The Elizabeth River Project will also serve as the Clearing House for education resources, activities and curriculum related to resilience as we launch a Youth Resilient Educators page at www.elizabethriver.org. Additional partners included: City of Norfolk Resilience Office, Norfolk and Portsmouth Public Schools, Wetland Watch and Hampton Roads Sanitation District.
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.
Resilient Schools Consortium (RiSC) Program
Brooklyn College and the National Wildlife Federation Eco-Schools USA program in New York City created The Resilient Schools Consortium (RiSC) Program to increase the environmental literacy of middle school and high school students while providing opportunities for their voices to be heard. The City's long-term planning document, OneNYC, set forth a vision for a resilient city without specifying a role for students or including specific plans for their schools. This project addressed this gap by allowing students to interact with city, state and federal officials and resilience practitioners and present their ideas for resilience guidelines for NYC Public Schools. An active-learning RiSC Curriculum was developed by two middle school teachers in collaboration with their peers and the project team. The curriculum is available at https://riscnyc.org. RiSC teams at six middle schools and high schools used the curriculum to follow the UC Climate Resilience Toolkit’s Steps to Resilience. They learned about climate change and extreme weather, the vulnerability of their schools and their communities, options for addressing the risks, planned, and prioritized action, and executed small scale resilience projects on their school grounds when possible. Students were able to share what they had learned and have dialogue with professionals from government agencies and non-governmental about actions and solutions at two RiSC summits in June 2018 and June 2019. The RiSC program directly reached over 200 NYC public schools students through direct participation on the RiSC teams or RiSC-sponsored events, and indirectly reached hundreds more through the interaction of RiSC students with their peers. RiSC students were highly motivated by the program’s focus on action and the opportunity to speak directly to officials at the summits. The RiSC program also resulted in the creation of the New York City Climate and Resilience Education Taskforce (https://cretf.org), a group of NYC agencies, educators, and non-governmental organizations that are working towards providing climate and resilience education for all New York City students and their teachers. Key contributors to the success of the Resilient Schools Consortium program included New York Sea Grant and the Science and Resilience Institute at Jamaica Bay.
Sound Resilience-Get on Board!
The Maritime Aquarium at Norwalk is located at the mouth of the Norwalk River where it flows into Long Island Sound. Its mission is to inspire people to appreciate and protect the Sound and the global environment. As global climate change increases, extreme storms and sea levels continue to rise and a growing percentage of the 23 million people living within 50 miles of the Sound are directly affected by severe weather events, providing a timely opportunity to educate students, teachers, and the public about community resilience. From 2017-2020, the Aquarium developed and delivered an innovative three-session climate resilience education program to more than 2,000 middle and high school students in Fairfield County, Connecticut. The Sound Resilience student experience began in the classroom, where students learned about the impacts of hurricanes and coastal storms on their communities and used a hands-on “beach in a box” to model the effectiveness of built structures like seawalls and natural resilience features including salt marshes and oyster reefs. Then, during a two-hour research cruise on the Aquarium’s hybrid-electric research vessel, Spirit of the Sound, students collaborated to map their home coastlines from the water: identifying vulnerable locations from apartment buildings to power plants, as well as the existing resilience structures protecting their coast. On the vessel they also stepped into the role of climate scientists, conducting real-time weather and water sampling, including collecting and examining photosynthetic plankton that absorb carbon and help to slow down the effects of climate change. The third program session, back in the classroom, sent students on a design and decision-making journey, in which they compared their collaboratively created resilience map with flood-risk maps of their hometown, then worked together to identify gaps in resilience infrastructure and design a resilience plan for their community. As a result of Sound Resilience – Get on Board!, there were significant gains in students’ understanding of resilience science and their own sense of agency in creating a resilient future for their communities. Participants also reported deeper understanding of, and connection to, the Sound’s coastal ecosystems, which serve to buffer storm waves, sequester carbon, and protect communities from extreme weather and climate change. The Aquarium also developed and delivered a teacher professional development workshop focusing on effective and standards-aligned methods of teaching climate change, resilience, and environmental justice issues. Finally, an interactive experience was created for guests in one of the Aquarium’s most highly trafficked spaces. It includes a series of twenty-foot map projections of Long Island Sound showing present and future vulnerabilities and resilience methods, as well as a touch-screen kiosk where guests can interact with NOAA resources showing the risks that floods and sea level rise pose to their home communities. Although the grant period has ended, the resources created thanks to NOAA’s Environmental Literacy Program will live on. The guest experience on the Aquarium floor will continue for the foreseeable future and the student programs—in-person as well as virtual—and teacher workshops will remain available within the Aquarium’s program catalog.
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.
Citizen Science, Civics, and Resilient Communities (CSCRC)
The "Citizen Science, Civics, and Resilient Communities” (CSCRC) project led by the Museum of Science, Boston in partnership with Arizona State University, Northeastern University, SciStarter, and the National Informal STEM Education Network (NISE Net), engaged thousands of public participants around the United States in participatory data collection and community deliberation about four climate-related hazards: heat waves, sea level rise, extreme precipitation, and drought. The aims of the project were to increase resilience to extreme weather and environmental hazards through the inclusion of community-generated data, local knowledge, and community values into civic planning, and to increasing capacity among science centers and informal educators for including publics in resilience planning and data collection. The project formulated, iterated, and evaluated a science-to-civics model that included agenda-setting, decision-making and policy forming phases. These activities were developed and implemented by educators at 30 US science centers in collaboration with local resilience planners. Groups of participants in each community collected, analyzed, and shared data about locally relevant hazards; learned about vulnerabilities through visualizations of geospatial data; participated in deliberative, participatory resilience planning and shared perspectives about resilience strategies and their societal and environmental trade-offs; formulated community resilience plans that brought forth diverse perspectives; and presented their findings and recommendations to resilience planners and publics. Participants contributed community-generated data such as urban heat island maps, precipitation data from rain gauges, or documented extreme events through photos of their communities. These data were visualized through StoryMaps, exhibited at local libraries and fairs, and used to facilitate community discussions about the tradeoffs of proposed resilience strategies. Many of the deliberation and participatory science activities pivoted to online formats in response to the pandemic. These digital engagement activities provided new and unanticipated challenges, but also new opportunities connect project participants and capture participant engagement in powerful ways. Our project evaluation found that citizen science and Forum participants increased their knowledge around climate hazards, resilience strategies and their tradeoffs. Participants also increased their confidence and interest in engaging with climate topics, including ways to take action around community climate hazards, contributing to citizen science efforts, and contributing to public policy. Museum professionals found that the project positively impacted their ability to implement science to civics activities, felt supported by the trainings and materials, and planned to continue implementing these programs provided they had continued access to materials, tools, and experts. Many of the project materials are freely available for download at nisenet.org/cscrc and the local project portals documenting the citizen science activities can be found at scistarter.org/noaa.
Resilience from the Youth Up
As climate impacts ratchet up across the United States, the Great Lakes region tends to fly under the national radar. While the Great Lakes do not experience hurricanes, rising sea levels, or large-scale wildfires, the local climate has become increasingly erratic in recent years. The region, however, is one of the most unprepared in the country to cope with these impacts. A recent Grosvenor report (2014) on climate resilience among 50 global cities ranked Detroit last among 11 U.S. cities for adaptability and only better than three cities for overall resilience, which incorporates both climate vulnerability and adaptability factors. Of U.S. cities with more than 100,000 residents, Detroit has the highest percentage of African-American residents (80.7%, U.S. Census 2016). Still recovering from bankruptcy, the city also has a 39% poverty rate, which impacts over 56% of children (ibid). These socio-economic factors, coupled with other environmental justice concerns, such as a centrally located incinerator and an asthma rate of 15.5% among adults resulting in over 3,000 hospitalizations annually, make Detroit residents particularly vulnerable to climate impacts. This project will address the urgent need to increase resilience by working with high school students and teachers in Detroit and southeast Michigan to increase their awareness of climate change and develop projects that help their schools and neighborhoods become resilient to increased occurrence and intensity of heat waves, storm events, and flooding. Using NOAA assets, including GLISA localized climate data and Sea Grant outreach and education expertise, high school students and teachers will partner with climate scientists to explore local climate impacts firsthand and to develop resilience strategies and projects that protect vulnerable households and neighborhoods and contribute to broader sustainability initiatives. The City of Detroit seeks this involvement as it ramps up a new Office of Sustainability and seeks proposals to develop the city's first Sustainability Framework. The effort is a partnership with EcoWorks, Great Lakes Integrated Sciences + Assessments (GLISA), Michigan Sea Grant (MISG), Southeast Michigan Stewardship Coalition (SEMIS), Eastern Michigan University, Civic Research Services, Inc., and the National Oceanic and Atmospheric Administration (NOAA). In each of the next three years, 200 students from various high schools in the Detroit and Ypsilanti areas will participate in weekly activities related to the grant. The four primary objectives of the program include: 1) Engage students in assessing and quantifying climate vulnerabilities of their schools, neighborhoods, and surrounding community. 2) Using a place-based education (PBE) model, prepare educators to engage students in creating plans and completing projects that increase community resilience. 3) Empower high school students to teach residents about local climate impacts and increase understanding of resilience strategies to mitigate extreme weather events or other environmental hazards. 4) Contribute to the completion and implementation of local sustainability and climate action plans in Southeast Michigan.
CREATE Resilience: Community Resilience through Education, Art, Technology, and Engagement
CREATE Resilience: Community Resilience through Education, Art, Technology and Engagement, is a multi-disciplinary collaboration between youth and community to 1) improve environmental hazards literacy, and 2) increase engagement in resiliency actions by youth and adult residents in the Lehigh Valley region of Pennsylvania. CREATE Resilience is designed to increase community knowledge about weather and climate science, risks from local hazards, and strategies for hazard mitigation, while co-creating a vision for community resilience. Developed by Nurture Nature Center (NNC) in Easton, PA, the four-year project will work with local, state and federal partners in three hazard-prone communities in the Lehigh Valley (Easton, Bangor and Wilson areas). Hazards, particularly weather-related hazards including flooding, have had major impacts in these communities historically and recently, causing extensive damage to property and disruption to community services. Damaging river flooding along the Delaware River in 2004, 2005 and 2006 highlighted major planning and safety challenges for many municipalities in the area with high flood risk, and a recently updated regional Hazard Mitigation plan highlighted other hazards – as well as the need for public education about hazards and mitigation. CREATE Resilience’s advisory board will work with NNC to bring education and engagement events to teach the science of these hazards, as well the household and community-level strategies and tools available for resilience. Partners include the National Weather Service (NWS) Middle Atlantic River Forecast Center and Mt. Holly, NJ Weather Forecast Office, and Weather Prediction Center, as well as LV Planning Commission, Northampton County Emergency Management Agency, LV Community Foundation, Lafayette College, and FEMA Region 3 Mitigation Division. In years 1 and 2, the project will form CREATE Youth Ambassador teams, in which student interns from area high schools will meet NWS meteorologists, engage in community storytelling events, develop local hazard and resilience tours, and learn from climate and other scientists about hazards and strategies for resilience. Ambassadors will also develop and lead programming for community residents. Simultaneously, residents will participate in active-learning education events, dialogue forums, arts-based activities, technology-based programs using NOAA assets, and hands-on preparedness activities. Each community will build a collective understanding of local hazards and mitigation strategies, and co-create a vision for resilience, represented in traveling visual artist-designed murals in the third year of the project. This education and shared vision will build community support for planning and resilience and help households in making better preparedness decisions. Dissemination through Science on a Sphere® and guidebooks will share the replicable model with other organizations and communities, extending the reach of the project. Close cooperation with NWS offices helps the project meet key goals of NOAA’s Education Strategic Plan, related to safety/preparedness and a science-informed society. Through public events and print materials, the project will showcase and interpret NOAA-related science and data with area residents, while creating collaborative learning opportunities for youth and community to interact with NOAA scientists. CREATE Resilience also engages youth and adults in preparing for hazards, and in multi-generational learning to improve community awareness and involvement in preparedness and mitigation.
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.
U.S. Virgin Islands Storm Strong Program
Under leadership from the University of the Virgin Islands, the Virgin Islands Marine Advisory Service, and local, non-profit, long-term, 2017 storm recovery groups, this 5-year project will create the U.S. Virgin Islands (USVI) Storm Strong Program. To date, minimal efforts have been made to engage the USVI community in hurricane education and preparation. As a result, USVI communities face significant, but often preventable, storm risks. This is the Territory’s first sustained, community-based, hurricane hazard preparedness, and community leadership building program. The USVI Storm Strong Program will engage underserved and underrepresented middle- and high-school youth and their families on all of the Territory’s main islands - St. Thomas, St. John and St. Croix - in a program modelled after the U.S. Climate Resilience Toolkit framework. Youth and their families will: (1) explore the science and hazards associated with hurricanes, (2) assess their communities’ vulnerabilities and associated risks, (3) evaluate personal and community assets and options to increase resilience, (4) prioritize and plan for events occurring before, during, and after a storm, and (5) take action, in this case, through Community Transfer Projects, which will turn the information gained through the Program into local actions to increase individual and community resilience, sharing knowledge and actions with the broader USVI community and beyond. Through this training, ~400 USVI youth and their families will be empowered as environmental leaders and change agents within their communities and important insights will be learned as to how best to engage underrepresented and underserved groups in hazard preparedness. Creation of the USVI Storm Strong Program is timely, given the significant impacts resulting from Hurricanes Irma and Maria, two Category 5 hurricanes that devastated the USVI in September 2017. These storms provide a window of opportunity to bring together partners from federal, territorial, non-governmental, academic, and the private sector, to develop a strategic, cohesive, long-term, high-impact, community-based program to improve environmental literacy and extreme weather hazard preparedness in the Territory, goals that align with the mission of NOAA’s Office of Education.
Environmental Literacy for Alaskan Climate Stewards (ELACS)
The Environmental Literacy for Alaska Climate Stewards (ELACS) project served 84 K-12 educators and 1,080 Alaskan students in predominantly Alaska Native coastal villages. The project provided opportunities to build understandings of how climate change impacts local environments, increase overall climate literacy, and contribute to community resilience. Participants were primarily from the Chugach School District and the Kenai Peninsula Borough School District, both located in the southcentral region of Alaska. Students and teachers in the Aleutian Region School District, Nome City Schools, and the North Slope Borough School District (southwestern, northwestern, and northern Alaska, respectively) participated to a lesser extent in novel learning experiences made available through collaborative partnerships that emerged during the grant period. The project focused on three areas: teacher professional development, classroom instruction, and community engagement. Professional development included training in project-based learning and co-teaching/coaching sessions with master teachers. Classroom instruction engaged students in meaningful, innovative, place-based, project-based learning, and citizen-science activities focused on site and community needs. Students monitored their local environments, built or otherwise used ocean observation systems, collected data, and represented their new knowledge through presentations and art. Significant outcomes included student work on the relationship between phytoplankton and salmon conservation in Chenega Bay, a Living History Project that engaged community members and elders with traditional ecological knowledge in Tatitlek, and engagement in weather and environmental monitoring plans for the community of Whittier (potentially threatened by tsunamis generated by unstable slopes in a nearby fjord). Students shared active research regarding impacts and available resources. ELACS aligned with and supported NOAA’s educational mission by helping the target populations understand and predict changes in climate, weather, oceans, and coasts. This project promoted students’ environmental stewardship and a deeper understanding of a changing environment at both local and global levels. Throughout the four-year project, students and teachers worked with scientists and experts in education, climate change, and marine science using project-based learning approaches and educational technology. A notable (but not exhaustive) list of partners included researchers from NOAA’s Kasitsna Bay Laboratory, the College of Fisheries and Ocean Sciences and the International Arctic Research Center (both at the University of Alaska Fairbanks), the Polar Science Center (University of Washington), Ground Truth Trekking, and the Center for Alaska Coastal Studies. Educational consultants included STEMisEd, Teknikio, NexMap, Build-A-Buoy, and EcoArt Expeditions. Corporate and non-profit partners included WeatherFlow, Inc., Batelle, Inc., Cook Inlet Tribal Council, and Alaska Science Teachers Association.