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1. Problem-Based Learning Increases STEM Interest for High School Students and Instructors

   https://doi.org/10.22492/issn.2189-1036.2021.23  

   Reider, David; Davis, Nanasi; Nariman, Nahid (January 2021, The IAFOR International Conference on Education – Hawaii 2021)

   The goal of Project STEMulate, a National Science Foundation ITEST study (DRL 1657625), was to develop, implement, and evaluate a program that fosters success in STEM for underserved and underrepresented high school students. The project was implemented at three sites of the Department of Education Upward Bound Program in Hawaiˋi. Project STEMulate delivered teacher training on Problem-Based Learning curriculum to ensure students were motivated and empowered, and to support STEM- related postsecondary educational success of Hawaiian and Pacific Islander students. A critical design goal of the program was to introduce teaching and learning strategies and processes that were more relevant to underrepresented youth populations than those offered in typical high schools to provide opportunities and to increase participation in the STEM study and career trajectory, something all too often out of mind and scope of these students. This study reports on three years of mixed methods summer academy data on both student and teacher learning outcomes. Teacher dispositions, evidenced through data from interviews, observations, and multi-point surveys improved in a majority of the dimensions, including teaching inquiry-based approaches, integrating technology, and STEM career knowledge and awareness. Student motivation, Science self-efficacy, and STEM career interest, evidenced from similar data sources, increased as well. Finally, we discuss the larger implications of extending this work to impact similar populations elsewhere of isolated, under- resourced and under-exposed youth with these proven strategies. 

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2. BUILDERS: A Project-Based Learning Experience to Foster STEM Interest in Students from Underserved High Schools

   Escobar, Martha; Qazi, Mohammed (December 2020, Journal of STEM education)

   Banu, Eliza A. (Ed.)

   Access to enriching science programs is not equitable, with students from affluent districts having more opportunities to develop their science, technology, engineering, and mathematics (STEM) skills than students from underserved districts. The Building Unique Inventions to Launch Discovery, Engagement, and Reasoning in STEM (BUILDERS) program was started in 2017 with support from the National Science Foundation’s ITEST program to provide students from the Alabama Black Belt with STEM opportunities to which they would otherwise have no access. This project-based learning (PBL) program uses the concept of a makerspace to allow students to explore how science and technology can be used to solve the problems that affect their own communities. During an intensive, 3-week summer experience (the BUILDERS Academy), teams of students enthusiastically use the makerspace to design, build, and test prototypes of technology-based solutions to their community problems. During this immersive PBL process, they acquire and apply STEM concepts, learn about STEM careers, and acquire valuable 21st century skills. An extension of the summer Academy into the academic year was moderately successful. Overall, these results highlight the need to make extracurricular STEM interventions available to underserved students in order to increase equitable access to practical and enriching educational experiences in STEM. 

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3. Citizen science across ages, cultures, and learning environments in Alaska

   Spellman, K.V.; Shaw, J.D.; Villano, C.P.; Mulder, C.P.H.; Sparrow, E.B.; Cost, D. (May 2019, Rural connections)

   Building community with rural and underrepresented groups has been a challenge in the field of citizen science. At the University of Alaska Fairbanks, a team of scientists, educators, Extension professionals, and evaluators have joined efforts to take on this challenge across Alaska. The goals for Arctic Harvest-Public Participation in Scientific Research are to: 1) investigate how shifts in environmental conditions affect the fate of subsistence berries and timing of berry loss from plants in fall and winter across Alaska; and 2) improve the participation in and effectiveness of citizen science across diverse audiences, particularly at high latitudes where a high proportion of communities have populations underrepresented in STEM. We present the assets that collaboration across a land grant university brought to the table, and the Winterberry Citizen Science program design elements we have developed to engage our 1080+ volunteer berry citizen scientists ages three through elder across urban and rural, Indigenous and non-Indigenous, and formal and informal learning settings. Our interdisciplinary team developed and implemented a program that provides in-person or online support for berry monitoring and data collection, and accommodates different age levels and settings. We also developed and tested an innovative program model that weaves storytelling throughout the citizen science learning cycle, from berries stories from the larger community, to stories of the citizen science process, to stories developed from berry data being collected and applied to future scenarios in a changing climate. The variety of program modifications we created have been highly effective helping reach a variety of settings and age levels. In both informal and formal learning environments in our first two years of the program we have had 568 pre-K and elementary-aged (age 3-12), 424 secondary-aged (age 12-18) youth participants and 107 adults (ages 18+), with 44% of participants coming from groups underrepresented in STEM, and 100% of groups completing berry monitoring throughout the fall. These results highlight the importance of designing the citizen science program with cultural relevance, program delivery options, and relationships between participants and scientists, while remaining committed to making a substantial scientific contribution. 

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4. Informal science, technology, engineering and math learning conditions to increase parent involvement with young children experiencing poverty

   https://doi.org/10.3389/fpsyg.2022.1015590  

   Zucker, Tricia A; Maldonado, Gloria Yeomans; Assel, Michael; McCallum, Cheryl; Elias, Cindy; Swint, John M; Lal, Lincy (November 2022, Frontiers in Psychology)

   Broadening participation in early science, technology, engineering and math (STEM) learning outside of school is important for families experiencing poverty. We evaluated variations of the Teaching Together STEM pre-kindergarten program for increasing parent involvement in STEM learning. This informal STEM, family engagement program was offered in 20 schools where 92% of students received free/reduced lunch. The core treatment included a series of family education workshops, text messages, and family museum passes. The workshops were delivered at school sites by museum outreach educators. We randomly assigned schools to business-as-usual control or one of three additive treatment groups. Using an additive treatment design, we provided the core program in Treatment A, we added take-home STEM materials in Treatment B, and added materials + parent monetary rewards in Treatment C. The primary outcome was parent involvement in STEM (n = 123). There were no significant impacts of any treatment on parent involvement; however, the groups that added take-home materials had larger effect sizes on parent involvement at posttest (ES = −0.08 to 0.18) and later, kindergarten follow-up (ES = −0.01 to 0.34). Adding parent monetary rewards only produced short-term improvements in parent involvement that faded at follow-up. We discuss implications for other community-sponsored family engagement programs focused on informal STEM learning, including considering characteristics of families who were more versus less likely to attend. These null findings suggest that alternatives to in-person family education workshops should be considered when parents are experiencing poverty and have competing demands on their time. 

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5. Disrupting deficit narratives in informal science education: applying community cultural wealth theory to youth learning and engagement

   https://doi.org/10.1007/s11422-020-10014-8  

   Habig, Bobby; Gupta, Preeti; Adams, Jennifer D. (March 2021, Cultural Studies of Science Education)

   null (Ed.)

   Informal learning organizations such as museums, zoos, aquaria, gardens, and community-based organizations are often positioned as having programming that fill a void that may exist in the lives of youth participants. Often these institutions do not recognize the assets that youth gain from their own homes and communities and bring to bear in these programs and that contribute to their success and persistence in STEM and academics. In this paper, we problematize the prevailing deficit-oriented approach to STEM enrichment programs for youth who are underrepresented in STEM. Drawing from Tara Yosso’s theory of community cultural wealth, we describe the STEM identity and trajectories of three individuals as they navigated a long-term, museum-based, informal science learning program. Using Yosso’s framework, we describe the capital that youth brought into the program and the ways that they leveraged this capital as they moved from middle to high school, and into their postsecondary studies and early careers in the sciences. Furthermore, we describe how their existing capital intertwined with capital they gained from the museum program in ways that fostered persistence and achievement in science. 

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