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The American Meteorological Society (AMS) and National Oceanic and Atmospheric Administration (NOAA) work together to share knowledge and information about weather and climate, ocean, and coasts with educators and students across the country. The goal of this effort is to build a scientifically informed and engaged society and a diverse STEM workforce prepared to respond to environmental hazards. AMS facilitates a national offering of the DataStreme Atmosphere and DataStreme Ocean courses and supports Project ATMOSPHERE leadership training workshops at the National Weather Service Training Center for in-service K-12 educators, with focus on those at schools with considerable numbers of students underrepresented in STEM. By 2023, about 2,100 educators will earn graduate credits through a partnership with California University of Pennsylvania and become confident Earth science educators. These educators are expected to impact more than 20,000 additional educators and several hundred thousand K-12 students.

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.

Communities in Colorado are increasingly experiencing major disruptions from environmental hazards, such as wildfire, flood, and drought. With this rise in hazardous events, there is a pressing need for communities to increase their resilience. An interdisciplinary team from the Cooperative Institute for Research in Environmental Sciences (CIRES) Education & Outreach Program at the University of Colorado at Boulder has developed and implemented an innovative, action-oriented youth engagement project that targets rural Colorado students, teachers, and communities. Our engagement model 15 empowers youth i) to envision community resilience through immersive scenario-based role play based using a solid understanding of the relevant science, ii) to learn about natural hazards through engaging place-based lessons, iii) to initiate conversations about hazard preparedness from within communities, and iv) to develop and implement student-led resilience action projects and participate in community resilience expos. A needs assessment disseminated to Colorado teachers guided the project team in the development of all instructional materials and allowed for customizing the content to teacher needs. The project team developed three units (one of wildfire, flood, and drought) for middle and high school students that consist of three parts: place-based data-focused lessons to introduce the hazard, a scenario-based role-play game with a focus on youth empowerment, and a design challenge for students to develop an idea for a resilience action project. Teachers can choose to teach any or all parts and invite community resilience stakeholders and practitioners to share their work with their students, and support students in designing and implementing action projects. Some teachers and students chose to host a Community Resilience Expo, where they invited the public to learn more about the hazard and what resources exist in the community to help prepare for the hazard. The project aimed to accomplished the following three objectives: 1) Increase Colorado secondary teachers’ knowledge and confidence to teach about local natural hazards, and to facilitate discussions about community resilience; 2) Increase Colorado youth’s understanding of natural hazards, their community’s vulnerability, and their involvement in resilience planning efforts, and 3) Enhance the capacity and empowerment of young people in Colorado to engage in dialogue with their peers, families, and community stakeholders about community resilience issues and identify, develop, and implement resilience actions. The project evaluation explored the efficacy of the program model and studied the impact of the project activities on students and teachers. The project filled a critical gap in Colorado’s resilience planning which does not include teachers and youth. The project was guided by partners from the NOAA RISA program Western Water Assessment, seven NOAA science advisors, and was implemented together with over 40 community partners, school partners and collaborators from across Colorado. Over the course of the four-year program, the project trained and supported 88 teachers, engaged nearly 2,000 students, and resulted in 9 Resilience Expo events across rural Colorado.

The Cooperative Program for Earth System Education (CPESE) is a joint education project led by the American Meteorological Society (AMS) in collaboration with the National Oceanic and Atmospheric Administration (NOAA). The project aims to share knowledge about weather, climate, oceans, and coasts with pre-service and in-service teachers, K-12 students, and graduate students. The project's objectives align with three key goals of the 2021-2040 NOAA Education Strategic Plan: fostering a Science-Informed Society, promoting a Ready, Responsive, and Resilient community, and cultivating a Future Workforce. CPESE's major objectives include providing nationwide professional development (PD) for K-12 educators, offering fellowships for graduate students in atmospheric, oceanic, and hydrologic sciences, and undertaking a planning year to reimagine AMS's model and methods for teacher PD course delivery. This planning year will focus on reaching more underserved teachers, schools, and climate-vulnerable communities. The long-term goals of CPESE are to establish a diverse community of practice among educators who are weather, ocean, and climate literate and adept at accessing NOAA data, and to promote retention and growth of graduate students in NOAA mission-related sciences, leading to careers in NOAA-mission disciplines. Key project activities include administering fellowships to 2-5 graduate students annually, offering DataStreme Atmosphere and Ocean as well as Project Atmosphere for graduate credit in partnership with Pennsylvania Western University (PennWest), and awarding microcredentials, such as the PennWest/AMS DataStreme certificate and/or Certified AMS Teacher distinction, to teachers who complete multiple AMS courses. DataStreme courses are offered virtually each fall and spring semester to approximately 70 teachers per term, while Project Atmosphere reaches 16-20 NOAA-supported teachers each summer through online coursework and a one-week workshop at the NWS Training Center. AMS updates DataStreme course materials annually and the Current Studies investigations weekly. In Year 2, AMS will plan for revisions to make Current Studies more dynamic and media-driven and update Project Atmosphere with newer maps, data, NGSS integration, and the 5E model of instruction. A network of DataStreme Mentor Teams supports AMS courses by recruiting teachers, providing learning support, participating in small group discussions, and offering grading input to PennWest faculty members. Mentors receive honoraria, continued PD opportunities, and assistance in participating in state or national educator conferences. In Year 2, a subset of mentors will form an advisory group to help re-envision the AMS course model, with the support of DEI experts and instructional designers (IDs). As AMS modernizes its course model, the project's external evaluator will revise the programmatic logic model and evaluation plan to include evaluative questions connecting participant demographics with teacher and school impact. Key program outcomes include equipping DataStreme mentors with the knowledge, skills, confidence, and motivation to serve effectively, developing similar capacities for teacher participants (including classroom content application and knowledge transfer to students, peers, and administrators), increasing the number of teachers from underrepresented groups and their impact on underrepresented students, establishing an educator community of practice capable of understanding and applying NOAA-related science content (fostering a more ready, responsive, and resilient society that promotes climate justice), preparing graduate students for careers in disciplines that support NOAA's mission, and strengthening NOAA-AMS and external partnerships.