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.
Continuing of the National Ocean Sciences Bowl (NOSB) Competitions
The National Ocean Sciences Bowl (NOSB) is a nationally recognized high school academic competition that provides a forum for talented students to excel in science, mathematics and technology and introduces team members, their teacher/coaches, schools and communities to ocean sciences as an interdisciplinary field of study and a possible future career path. Established by the Consortium for Oceanographic Research and Education in 1998 (the Year of the Ocean), the program operates within a supportive learning community framework that involves the ocean research community in pre-college education and stimulates broad interest in and excitement about science and the oceans. The basic model for NOSB is that of a two-tiered timed competition in which pairs of four-student teams answer multiple-choice, short-answer and critical thinking questions within multiple categories related to the oceans. Each fall, over 400 participating high schools prepare their teams for 25 regional ocean sciences bowl competitions held across the United States in February and early March. Winners of these Regional Bowls advance to the national finals in late April. The current structure layers a rich array of year-round academic elements onto the basic competition framework and offers a range of program enhancements including summer internships and scholarships for NOSB alumni and opportunities for teacher professional development. Four regional bowls currently receive additional funding to expand recruitment efforts and provide mentoring and field trip experiences for students from racial, ethnic and economic groups underrepresented in the ocean sciences. CORE proposes to continue to administer and manage the National Ocean Sciences Bowl for the next five years (April 2007-March 2012). Funds are requested to add two new sites and expand the diversity initiative. To improve the credentials of the nation's teachers and informal educators, the proposal seeks funding for coach and regional coordinator professional development including a focus on the fundamental principles and concepts of ocean literacy recently developed by the ocean education community. An additional new element is a longitudinal study of educational and career paths that will assess the role that the program plays in encouraging talented students to enter the pipeline into ocean science careers and STEM (Science, Technology, Engineering and Mathematics) professions. By supporting and promoting the program's unique educational and experiential opportunities, all NOSB partners and sponsors contribute to helping our nation better prepare K-12 students in science and technology and identify and cultivate future scientists and technical experts.
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.
Promoting Environmental Literacy through Teacher Professional Development Workshops and Climate Change Student Summits (C2S2)
This project will provide K-12 teacher professional development and focused student activities to promote environmental literacy using the essential principles of ocean and climate literacy. In partnerships with NOAA entities, school districts, and museums across the United States, we will provide: (1) high-energy face-to-face professional development workshops for teachers, facilitated by experienced educators; (2) ongoing support and interactions among teachers and students through an online collaborative website, or group-hub; and, (3) high-profile, focused events in which students interact with scientists and the public to share what they've learned, both locally and internationally. The primary goal of this project is to increase the environmental literacy of K-12 teachers and their students from school districts that are part of existing science museum networks. Each summer, we will work with 4 to 6 partner museums to invite 30 to 40 teachers from their local school districts to take part in a pair of workshops.
Ocean Sciences Curriculum Sequence for Grades 6-8
The Lawrence Hall of Science (LHS) at the University of California, Berkeley, in partnership with the Rutgers University Institute of Marine & Coastal Sciences, and the Curriculum Division of Carolina Biological Supply Company (Carolina Biological) propose to create an Ocean Sciences Curriculum Sequence, Grades 6-8 that will provide a major step toward achieving a coherent, comprehensive, nationally disseminated K-12 ocean sciences curriculum with NOAA as the lead sponsor of the entire series. The Ocean Sciences Curriculum Sequence, Grades 6-8 will be a powerful companion to the Ocean Sciences Curriculum Sequence, Grades 3-5 already available, and the recently published, NASA-funded GEMS Space Science Curriculum Sequence, Grades 3-8 (see http://www.lhsgems.org/CurriculumSequences.htm). The Sequence will be built in part on repurposing and updating existing instructional materials from the LHS Marine Activities, Resources & Education (MARE) and Great Explorations in Math and Science (GEMS) programs. The materials will provide teachers with standards-based tools for teaching basic science using the ocean as an integrating context. This project will create instructional materials that have potential to become the most widely used middle school ocean sciences curriculum nationwide. The materials will be: (1) grounded in current research on teaching and learning, (2) aligned to the Ocean Literacy (OL) Essential Principles and Fundamental Concepts, and national and state science standards, and (3) extensively field tested and evaluated to ensure their effectiveness and applicability nationwide. The Sequence will include print materials for teachers with inquiry-based learning activities, student readings and data sheets, pre-, post-, and embedded assessments, and readily available instructional materials "kits" that allow it to be adopted by whole school systems and/or states as part of their regular, mainstream science programs. The materials will provide classroom teachers with essential tools to advance ocean literacy and the discoveries of NOAA scientists. No comparable middle school ocean sciences curriculum is currently available.
NOAA Earth System Science Courses: Building on the Earth System Science Education Alliance (ESSEA)
The Earth System Science Education Alliance (ESSEA) is a successful teacher professional development program enhancing K-12 teachers' environmental literacy and ability to teach Earth System Science. The ESSEA 40+ educational institution consortium is supporting universities and other educational institutions in teacher preparation and professional development for pre-service and in-service K-12 teachers. This NOAA-funded project enhances and builds on this foundation by: 1) Using the ESSEA online courses as a model to introduce newly upgraded Earth system science undergraduate and graduate courses for teachers; 2) Introducing new Earth System Science data, analysis tools and educational resources to support the teacher courses; and 3) Disseminating model teaching practices and program success through annual conferences, continuing support, and presentations at geoscience and education conferences.
Measuring the Effectiveness of North American Environmental Education Programs with Respect to the Parameters of Environmental Literacy
The North American Association of Environmental Education (NAAEE) will assess environmental literacy levels of middle school students and compare the results to baseline data collected nationwide in 2007. In this study the research team will solicit and select a purposeful sample of schools and other program sites that represent the following categories: (1) Networks, e.g., Lieberman schools, Earth Force/Green Schools, Blue Ribbon School, etc.; (2) Programs, e.g. WET, WILD, PLT, IEEIA, etc.); (3) environmentally focused Charter and Magnet Schools; and (4) Independent Schools. By comparing 2008 programmatic assessments to the established 2007 base-line levels of environmental literacy (while investigating the variables that may contribute to school wide or classroom levels of literacy), the field of environmental education and NOAA may make future curricular and program decisions that are grounded in sound scientific data. The Research Team will review these results and generate a report to be submitted to NOAA and NAAEE (and other partners as needed). These results comprise a presentation at the annual NAAEE Conference and other venues. Articles will be submitted to professional newsletters and journals.
Applying Social Research to Build Environmental Literacy and Public Engagement in Protecting Ocean Resources
This project will expand and enhance an initiative that offers zoos, aquariums, and science museums the market research they need to engage and motivate the public on issues related to the ocean and climate change. The three-year project will measure changes in public awareness and action on ocean and climate-related issues. It will integrate these research findings into recommendations offered to staff working at zoos, aquariums, and science museums as well as to the ocean conservation community and provide professional development for staff members at these institutions in order to support and shape public outreach efforts that connect climate change, the ocean and individual actions, especially among our nation's youth.
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.
Secondary Analyses of the National Environmental Literacy Assessment: Phase I & II Students, Teachers, Programs and School Survey
Phase Three of the National Environmental Literacy Assessment (NELA) will analyze the relationship between middle school students' scores on the MSELS and other measured variables that may have critically impacted the development of environmental literacy in these students. Phases One and Two of the National Environmental Literacy Assessment (NELA) relied on four data collection instruments: The Middle School Environmental Literacy Survey (MSELS), the School Information Form, the Program Information Form, and the Teacher Information Form. The primary outcomes of these phases were to identify general levels of environmental literacy (measured by the MSELS) and to compare these levels both within and across the studies. Through the comparison of these data sets, we could identify schools in which grade level cohorts of students displayed markedly higher levels of environmental literacy variables than their peer cohorts at other schools. However, questions remain concerning the magnitude and influence of variables that were reported on those survey forms, as well as the relationships among variables measured by the MSELS scales. The major research questions that will guide this Phase are: 1) To what extent do the variables measured by these Forms during Phase One and Two appear to have contributed to or influenced students' environmental literacy scores; 2) How do these variables appear to interact with each other; and 3) What are the relative contributions of knowledge, affect, and skill variables to actual commitment or behavior. The resulting analyses of this study will be shared both through peer-reviewed publications as well as appropriate professional conferences.
Building a Green Texas: Activating a New Generation of Sustainability Leaders
Climate change disproportionately impacts low-income and otherwise marginalized communities that typically have the fewest resources to adapt. Furthermore, the very communities that feel the effects of climate change most acutely have been historically underrepresented in the fields of sustainability and green building. The Building a Green Texas (BGT) project helps address these concerns by giving high school students opportunities to develop the knowledge, skills, and confidence to tackle challenges posed by climate change. In the process, students gain valuable green career skills and credentials and become part of a green building school-to-job pipeline that will help contribute to a more diverse workforce. Texas-based nonprofit EcoRise, the University of Texas at Austin, and the University of Texas Marine Science Institute/National Estuarine Reserve System of NOAA’s Office for Coastal Management will lead this robust, three-year project beginning in Central Texas in Year 1 and expanding into Houston and Texas Gulf Coast communities in Year 2. Through school-year field experiences and paid summer internships, students in the program will use established scientific evidence, citizen science, and an understanding of location-specific socioeconomic and ecological factors to explore current and future extreme weather phenomena and other environmental hazards facing their communities. They will gain real-world learning experiences and career exposure by directly engaging with scientists, civic leaders, green building professionals, and NOAA data and staff. As students help design community-based green building projects, they will consider scientific uncertainty, cultural knowledge, and social equity, in the real-world context of improving community resilience.
Climate Resilience Education and Action for Dedicated Youth Program (Climate READY Program)
The goal of the Climate Resilience Education and Action for Dedicated Youth Program (Climate READY Program) is to increase the environmental literacy of South Florida students, teachers, and the general community so they can become more resilient to extreme weather and/or other environmental hazards. To prepare for a future of increasing environmental hazards, communities will need an informed public that is willing to act on decisions on a personal and civic level. Education has the potential to play an important role in achieving that goal. However, despite dire predictions of the impacts of climate change, the topic has yet to make it into mainstream education in the South Florida classroom. Climate READY is a collaborative effort between FAU Pine Jog, the Palm Beach County Office of Resilience, the Coastal Resilience Partnership, South East Florida Regional Climate Change Compact, city sustainability offices in Boynton Beach, Boca Raton, West Palm Beach, the School District of Palm Beach County and Galaxy E3 Elementary School. Climate READY will focus on engaging some of the most underserved and socially vulnerable communities located in Palm Beach County, Florida. The Climate READY Program has four interconnected components: Climate READY Institute (training 48 students, grades 9-12) to become Climate READY Ambassadors, Afterschool Climate READY Program (engaging at least 300 after school students in grades 4-8), Climate READY Teacher Professional Development (training 48 teachers from targeted schools) and Climate READY Community Outreach (engaging at least 600 community members at local community events). This project will leverage NOAA assets including Science on a Sphere (SOS) technology and datasets, the SOS Explorer Mobile application, Weather Ready Nation, US Climate Resilience Toolkit, and Owlie's Weather-Ready Educational Activities. FAU Pine Jog will use the Climate Action Learning Process to develop all program lessons. The primary outcome of the program will be to enhance the adaptive capacities of identified vulnerable communities so that they are more prepared to respond to climate-related hazards and to increase civic engagement, inclusive decision-making, and equity.
Building Environmental Resiliency Leaders (BERL)
Among the most geographically isolated islands in the world, Maui’s fragile environment is highly vulnerable to sudden (hurricanes, flooding) and prolonged (drought, ocean acidification, sea-level rise) environmental changes. The University of Hawai?i Maui College seeks to build an environmentally literate and resilient community equipped to address, manage, and mitigate the challenges associated with environmental events and hazards. Building Environmental Resiliency Leaders (BERL) has three main goals: 1) Develop environmental hazards modules specific to Hawai’i that can be integrated into high-school curriculum; 2) Strengthen students’ understanding of environmental hazards and build self-efficacy in being contributors towards community resilience; and 3) Create community awareness of and ability to prepare for environmental hazards. By partnering with all 10 Maui County public and private high schools, BERL seeks to empower 200 environmentally resilient high school youth leaders —including Native Hawaiian, underrepresented, and low-income students in grades 9 through 12— throughout the islands of Maui, Moloka?i, and Lana?i. The BERL project will develop the Environmental Resiliency Youth Leaders certification program with curriculum to engage students in active learning through innovative Problem-based Learning (PBL) group projects where students select a research topic informed by climate resiliency educational modules and consult with community subject matter experts; including partners from the National Weather Service, Hawaiian Islands Humpback Whale National Marine Sanctuary, University of Hawai?i Sea Grant, Maui Emergency Management Agency, Maui County energy Commissioner, and Hawai?i Emergency Management Agency. Specifically, curriculum will integrate and align: 1) Overview of environmental events & hazards: tropical cyclones/hurricanes, drought/fires, ocean acidification, and seal level rise/flooding ; 2) Local scenarios & experiential outdoor learning; 3) US Climate Resiliency Toolkit; and 4) Development of resiliency plan to work towards either a) utilizing school as resiliency hub site; or b) addressing long-term resiliency to prolonged environmental changes. As a culminating event, students will present their final projects and host workshops to the broader community at local or regional events with a potential reach of 90,000 annually over three project years. In addition, BERL will hold an annual Resiliency Awareness Day, reaching 1,000 students annually, to build community awareness and resources. Amidst the threat of COVID-19 and necessary safety measures, BERL is prepared to mobilize an online curriculum for students with online presentations and virtual events to reach the broader community. BERL aligns with NOAA’s mission to educate and motivate individuals to apply environmental science to increase stewardship and resilience to environmental hazards by creating a cadre of youth environmental resiliency leaders, trained educators, and broadly reaching over half of the Maui County population. The project employs a culturally relevant, place-based, and PBL approach where 40 teams of students engage in research projects to build environmental literacy at their high schools and the wider community. In alignment with NOAA's Education Strategic Plan (2015-2035), BERL seeks to “educate and inspire people to use Earth system science toward improving ecosystem stewardship and increasing resilience to environmental hazards.”
Increasing Sea-Level Rise Resilience in the Northern Gulf of Mexico
Sea-level rise (SLR) will disproportionately affect the northern Gulf of Mexico (nGOM; coastal Mississippi, Alabama, and northwest Florida) due to a confluence of socioeconomic challenges (e.g., vulnerable industry, low per capita income, low level of educational attainment, etc.), higher than average rates of SLR, and low-lying topography. Resilience of nGOM social, economic, and cultural resources in the face of SLR requires an informed and engaged constituency and leadership that understands their risks, SLR adaptation options, and the civic processes required for action. Multiple formal and informal needs assessments have identified specific educational and informational gaps that act as barriers to SLR action in nGOM coastal communities. To address the SLR resilience barriers identified by nGOM stakeholders and decision-makers, the project team will implement a comprehensive and diverse education program that engages multiple sectors within coastal communities including youth, educators, municipal officials, concerned citizens, and non-participants (i.e., those who have not yet been engaged in dialogue around SLR resilience). The goal of the project is science and civics literate constituencies in the northern Gulf of Mexico that can actively support cultures, economies, and ecosystems that are resilient to SLR. This goal will be achieved by developing an inclusive SLR education program that spans ages, locations, and demographics. There are three categories of project activities targeting different community sectors: 1) educator workshops encouraging application of an existing SLR curriculum for high school students; 2) Community Connection Dialogues that connect community leaders working on SLR with engaged constituents to inform and empower future action; and 3) pop-in immersive SLR experiences at “every day” locations (e.g., baseball games, art walks) to reach those without the means/motivation to engage in SLR resilience. The SLR curriculum, Community Connection Dialogues, and Pop-Ins are three parts of a whole that work to bring community members at all levels of understanding and engagement into the conversation and direct them towards the next step in their pathway to SLR community resilience. This work is being led by Mississippi State University in partnership with the Mississippi-Alabama Sea Grant Consortium, Dauphin Island Sea Lab, Alabama School of Mathematics and Science, Gulf of Mexico Alliance, and the University of South Alabama. Collaborators from across the region will include the Mississippi State University Gulf Coast Community Design Studio, the five Gulf National Estuarine Research Reserves, Audubon Nature Institute, 350 Pensacola, League of Women Voters of Mobile, EEECHO, Ocean Springs Environmental Committee, UF/IFAS, Perdido & Pensacola Bays Estuary Program, Better Growth Mobile, Cities of Ocean Springs, MS and Pensacola, FL, Counties of Jackson, MS and Santa Rosa, FL, and the GoM Climate and Resilience Community of Practice.
Empowering Rural Youth for Community Climate Resilience in New York State
Empowering Rural Youth for Community Climate Resilience in New York State is a three-year project led by The Wild Center in partnership with the Finger Lakes Institute at Hobart and William Smith College and the Alliance for Climate Education, which builds on the achievements of Convening Young Leaders for Climate Resilience, a project previously funded by NOAA. Today’s youth are deeply concerned about the impacts of climate change in their communities and increasingly demand positive action and a role in decision-making. The proposed collaboration will support the development of leadership skills for rural youth by creating programming that demonstrates best practices for students and teachers to engage and partner with local municipalities on climate resilience planning. The project will also increase awareness of the NY State Climate Smart Community (CSC) program, a national model. Over the next 3 years the project will: 1) Develop pathways for young people--specifically in rural areas--to effectively partner with decision-makers in their home communities through partnering with the NY State Climate Smart Community (CSC) program; 2) Increase climate literacy, education and action among high school students through place-based Youth Climate Summits and intensive Youth Climate Leadership Retreats; 3) Increase teacher comprehension and confidence to prioritize climate change education instruction and mentor students; and 4) Formalize the NY State Youth Climate Summit network by establishing a community of practice centered on sharing best practices and actions that align with NY State climate change adaptation and resilience planning. This project aligns with NY State’s climate resiliency planning by building on successful and current partnerships with the NY State Office of Climate Change, NY State Energy Research and Development Authority (NYSERDA) and NOAA’s Climate Program Office to connect project participants with cutting edge science, hazard assessments, and established community climate resilience programs. The project will serve 700-800 high school students, 60-80 high school teachers, and 60 youth leaders in New York State. The project is also designed to reach a much wider audience, including 30 rural decision-makers and community members, as well as 50-60 formal/informal educators. Project documentation includes a Guide to the NY State Climate Smart Community Program for Students and Educators, and a Youth and Local Government for Climate Resilience Workshop Module, which will benefit other Youth Climate Summits and be disseminated through the online toolkit and through the national network of youth climate summits. Additionally, the project will support a community of practice for informal and formal educators across NY State who are working on new and existing Youth Climate Summits to provide the opportunity to align with the CSC program, collaborate on best practices, and co-create strategies for engagement.
Climate Resilience and Community-driven Action With a Hyperlocalized Public Forum
The Science Museum of Virginia will build upon its community science experience and its role as a trusted source of climate science information to lead “Climate Resilience and Community-driven Action with a Hyperlocalized Public Forum in Richmond, VA” in partnership with Virginia Community Voice, Groundwork RVA, Happily Natural Day, and Southside ReLeaf - local nonprofits with proven track records of effecting change through community engagement and urban greening initiatives. This project supports Richmond’s work to heal social, racial, and environmental injustices by increasing community resilience to climate change through placemaking. Richmond served as both the Capital of the Confederacy and the United States’ second largest trading port for enslaved persons during the 19th century. In the 1930s and 1940s, redlining - the systematic denial of access to home loans, mortgage insurance, or credit based on an applicant’s race or ethnicity - effectively segregated people of color into less desirable urban neighborhoods. Research conducted both in Richmond and nationwide demonstrates that, today, formerly redlined neighborhoods tend to be significantly hotter, more prone to flooding, and experience poorer air quality than non-redlined areas. These neighborhoods also tend to be home to individuals - mostly Black and brown - with the fewest resources to adapt to the health and financial impacts of human-caused climate change, which continues to intensify each year. Richmond’s mayor and Office of Sustainability support this project, which will align community vision with existing planning efforts that seek to build a Richmond that is “a sustainable and resilient city with healthy air, clean water, and a flourishing ecosystem that nurtures healthy communities, increases resiliency to the effects of a changing climate through adaptation and mitigation, develops the built environment to enhance natural assets, and ensures all people have access to nature and healthy communities.” Because resiliency is a process, youth and adults participating in this project will explore hazards (specifically flooding and extreme heat); assess their vulnerability and risks (determine how climate change is currently harming, or will most likely harm, neighborhoods); investigate options (by determining which resilience-building strategies are most effective for each community and vision); prioritize and plan local resilience-building strategies (ensuring that residents’ vision can be realized); and take action by implementing and sustaining projects in the community with project partners. Strategies may include placemaking through planting trees, building permeable pathways, constructing shade structures, and creating community gardens to provide shade, fresh food, and neighborhood gathering spaces, as well as rainwater harvesting and bioretention rain gardens to mitigate stormwater issues. This project is unique because it will actively support nonprofits that engage historically underserved people whose voice is commonly left out of City planning efforts, increase their environmental literacy, and provide resources needed to enact their vision. RK&A will evaluate the project, which will build upon evaluation data from the Science Museum’s previous NOAA ELP-funded project - “Learn, Prepare, Act - Resilient Citizens Make Resilient Communities” - and a NOAA-funded project by the Museum of Science Boston - “Citizen Science, Civics, and Resilient Communities: Increasing Resilience Through Citizen-Created Data, Local Knowledge and Community Values.”
The Resilient Schools Consortium (RiSC) Phase II: Connecting Schools to Coastal Communities
With a three-year $450,000 grant from NOAA, the National Wildlife Federation (NWF) and partners will implement Phase II of a climate and resilience education program, The Resilient Schools Consortium: Connecting Schools to Coastal Communities. Building on the previously funded Resilient Schools Consortium (RiSC) Program, (2016 - 2019), NWF will work with 200 students and 10 teachers from eight New York City Department of Education public schools. The students will adopt-a-shoreline in Coney Island, Brooklyn—a frontline community battered by Superstorm Sandy in 2012 and threatened by sea level rise, coastal erosion, and inequitable exposures to flooding. Through field trips to local beaches, community engagement events, dune plantings, and public art installations, this project will connect students—who live or attend school in the Coney Island area—to residents and community partners. Together, they will increase their awareness of future climate impacts and develop strategies for building climate resilience and equitable adaptation to sea level rise. The Phase 1 RiSC curriculum for grades 6-12, designed by NYC STEM teachers, will be streamlined into a one-year product focused on coastal hazards, natural and built solutions that increase ecological resilience, and civic participation. Adaptable by schools in other coastal communities, the curriculum will continue to offer a strong foundation in climate science. Complete with user-friendly slide decks, handouts, and direct links to NOAA resources and digital tools, it will guide teachers and students through project-based activities during the school year. Key program partners, New York Sea Grant, and American Littoral Society (ALS), and advisors from the Science and Resilience Institute at Jamaica Bay (SRIJB) will provide community science expertise and lead shoreline ecology field trips. An “Adopt-a-Shoreline Field Trip Guide” will help students monitor the shoreline. ALS will lead professional development workshops for teachers and dune-planting activities that will increase shoreline resilience. The Coney Island Beautification Project, a core community partner, will lead public engagement and outreach, and recruit residents with historical knowledge of local weather events for student interviews. Students will build sea level rise markers and install them in suitable public spaces. Culminating Open Houses will bring Coney Islanders together to view student work and provide a platform to discuss flood risks and solutions. Knology will evaluate the project’s impact.
Community Resilience Informed by Science and Experience (C-RISE)
Coastal rural communities have deep cultural connections to and rely heavily upon the marine environment and economy. Due to their remoteness, isolation from central planning agencies, and lack of financial and municipal resources, they are highly vulnerable to climate impacts such as sea level rise. The Gulf of Maine Research Institute (GMRI) and key project partners, Upswell and the Island Institute, will develop, convene and facilitate regional trainings by which Maine’s rural coastal communities can increase their capacity to plan and prepare for coastal climate impacts by developing the knowledge, skills, and relationships necessary to create data- and community-informed climate resilience plans. Cornerstone to the regional trainings is an engagement tool that builds common knowledge, incorporates diverse community value and voice, provides a framework for community planning and decision making, and builds relationships amongst participants. These trainings will also leverage and engage resilience professionals in Maine to share and represent their resources as communities apply those to their newly acquired skills and frameworks for community planning and decision making. Community leaders from the regional trainings will continue their learning through participation in a professional learning community. We will also leverage GMRI’s prior NOAA Environmental Literacy Grant, titled “Community Resilience Informed by Science and Experience (C-RISE),” to deliver community education programming that builds the capacity of residents in coastal communities to support resiliency planning and adaptation actions by providing participants with knowledge of and access to local sea level rise data. This project will serve 20 rural coastal and island communities in Maine through four regional trainings. Each community will select a diverse and equitable representation of 10 stakeholders and community leaders to participate in the trainings. Community education events will be accessible to all residents of each community. These interventions will build community literacy and capacity for developing coastal resilience plans that benefit the social, environmental, and economic health of the community and align with Maine’s Climate Action Plan. An advisory group including representatives from NOAA’s Office for Coastal Management, Maine Sea Grant, Wells National Estuarine Research Reserve, the State of Maine’s Governor’s Office of Policy Innovation and the Future, Maine Geological Survey, Maine Department of Environmental Protection, the Town of Vinalhaven, and the Town of St. George will guide the development and implementation of this project. Researchers at the University of Maine, Orono will evaluate the implementation of the project as well as assess the impact of this project on a communities’ ability to make community-informed climate plans. This project reflects NOAA’s Community Resilience Education Theory of Change, specifically supporting resilience planners and community members to develop trusting relationships focused on their collective environmental literacy through genuine conversations around resilience planning and decision making. With NOAA, we envision communities that have the capability to anticipate, prepare for, respond to, and recover from significant multi-hazard threats with minimum damage to social well-being, the economy, and the environment.
Southcentral Alaska Collaborative for Resilience through Education and Decision-making (SACRED)
The Center for Alaskan Coastal Studies and the Kachemak Bay National Estuarine Research Reserve will partner with tribal organizations in southcentral Alaska to foster and support community-driven educational and monitoring programs that will safeguard healthy marine resources and abundant freshwater resources against rapid, ongoing climatic changes affecting Alaska Native communities. The goal is to increase environmental literacy and resiliency within southcentral Alaska’s most vulnerable communities through workshops that enhance community-based monitoring programs and engage tribal Environmental Coordinators, local educators, and high school students in culturally responsive hazards education. Through the Southcentral Alaska Collaborative for Resilience through Education and Decision-making (SACRED) project, communities will establish sustainable long-term environmental monitoring programs and educational opportunities that involve youth in reducing risks from marine toxins and ensuring continued access to traditional foods and safe drinking water.
ResilienceMT: Building Resilience in Montana’s Rural and Tribal Communities
“ResilienceMT: Building Resilience in Montana’s Rural and Tribal Communities” education and engagement activities will enhance the environmental literacy of over 2,000 Montanans, including youth and adults, and support community climate resilience planning, implementation, and capacity building. This project addresses the need for adaptive capacity related to (1) wildfires and associated impacts on human health, state and local budgets, and Montana’s tourism and recreation economies; (2) drought and impacts on crops, agricultural economies, wildlife and game species, and culturally-significant plants; and (3) flooding due to extreme weather events and changes in amount and timing of spring snowmelt and associated impacts on water supplies, recreation, and fishing. Impacts associated with our changing climate are already occurring, and rural and tribal communities are particularly vulnerable and less prepared than larger communities. Project objectives include building action competence and capacity for resilience planning and implementation among youth and adults in partner communities. Specifically, the project will develop participants’ climate resilience-related knowledge and skills as well as their willingness, confidence, and capacity for action. Project leaders from the University of Montana, including spectrUM Discovery Area, and Montana State University will work in close collaboration with two tribal communities in Montana, the Blackfeet Nation, and the Fort Belknap Indian Community, and with two rural communities in the Bitterroot Valley, all of which are particularly vulnerable to the effects of climate change. Project activities aimed at achieving these objectives include (1) An interactive, data-based Mobile Climate Resilience Exhibit serving middle and high school students and families; (2) Community Climate Resilience Resource Guides; (3) Community Climate Resilience Forums; and (4) Follow-up interviews, report dissemination, and additional education and networking opportunities. The Mobile Exhibit will be collaboratively designed with partner teachers and communities and will utilize data and expertise from multiple sources including NOAA and the Montana Climate Office. The exhibit will employ digital ESRI Story Maps and other interactive physical elements to allow students and families to explore the science of wildfires, drought, and flooding; historical trends and projected climate changes, impacts, and interrelated human and ecological vulnerabilities at multiple geographic scales; and locally relevant climate resilience strategies. Elements of the Mobile Exhibit will be included in the Resource Guides, which will be available online and in print at the Community Forums. Collaboratively designed and led with tribal environmental offices and community partner organizations, the Community Climate Resilience Forums will include intergenerational dialogue; enhance understanding of community climate vulnerabilities and resilience planning efforts; and facilitate local action projects. Project leaders will obtain additional input from forum participants and community leaders; report to the community on the results; and facilitate various follow-up engagement, education, and networking activities among students and other community members to support achieving project objectives.