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1. “Protected Teaching Spaces”: Opportunities and Constraints When Teaching for the edTPA

   https://doi.org/10.3102/01623737231162112  

   Lohwasser, Karin; Long, Caroline; Shim, Soo-Yean; Windschitl, Mark (April 2023, Educational Evaluation and Policy Analysis)

   Preservice teacher performance assessments, such as the edTPA, are one of the accountability policies from states and local authorities designed to ensure the quality of beginning teachers and standardize teacher education. We studied experiences of 65 preservice teachers regarding the effect of the edTPA on their learning in field-placement classrooms. These cases revealed that the edTPA created “protected teaching spaces” for participants to experiment with student-centered instructional practices supported in university courses and codified in edTPA rubrics. This was especially impactful for novices who previously had limited opportunities to try out equitable reform-oriented instruction in their placements. In these cases, the edTPA also helped mitigate inequities in learning to teach, an unintended outcome that is important for policymakers to consider when deciding on credentialing requirements. 

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2. The culturally responsive science teaching practices of undergraduate biology teaching assistants

   https://doi.org/10.1002/tea.21711  

   Barron, Hillary A.; Brown, Julie C.; Cotner, Sehoya (May 2021, Journal of Research in Science Teaching)

   Abstract Science as an enterprise has been and continues to be exclusionary, perpetuating inequities among whose voice is heard as well as what/whose knowledge is recognized as valid. Women, people of color, and persons with disabilities are still vastly outnumbered in science and engineering by their White, male counterparts. These types of imbalances create a gatekeeping culture of inequity and inaccessibility, particularly for traditionally underrepresented students. Science classrooms, especially at the undergraduate level, strive to mimic the broader practices of the scientific community and therefore have tremendous potential to perpetuate the exclusion of certain groups of people. They also have, however, the potential to be a catalyst for equitable participation in science. Utilizing pedagogies of empowerment such as culturally responsive science teaching (CRST) in undergraduate classrooms can mitigate the gatekeeping phenomenon seen in science. Teaching assistants (TAs) engage in more one‐on‐one time with students than most faculty in undergraduate biology education, yet minimal pedagogical training is offered to them. Therefore, training for improved pedagogical knowledge is important for TAs, but training for CRST is critical as TAs have broad and potentially lasting impact on students. This study explores the ways in which undergraduate biology TAs enact CRST. Using constructivist grounded theory methods, this study examined TAs' reflections, observation field notes, semistructured interviews, and focus groups to develop themes surrounding their enactment of CRST. Findings from this study showed that undergraduate biology TAs enact CRST in ways described by four themes:Funds of Knowledge Connections,Differentiating Instruction,Intentional Scaffolding, andReducing Student Anxiety. These findings provide new insights into the ways undergraduate science education might be reimagined to create equitable science learning opportunities for all students. 

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3. Teaching the way they were taught? Revisiting the sources of teaching knowledge and the role of prior experience in shaping faculty teaching practices

   https://doi.org/10.1007/s10734-013-9678-9  

   Oleson, Amanda; Hora, Matthew T. (July 2014, Higher Education)
4. Teaching the E in STEM: A Synthesis of the Engineering Teaching Self-Efficacy Literature.

   Haines, S; Menon, D; Wieselmann, J; Asim, S (January 2023, Association for Science Teacher Education)

   Preservice teacher preparation programs and inservice professional development enhance science teaching self-efficacy. Research has shown that elementary teachers often have low self-efficacy for teaching science and engineering. However, there is less evidence surrounding engineering teaching self-efficacy. In this systematic review of literature, we explored the research question: What does the existing literature on self-efficacy reveal about fostering elementary teachers’ engineering teaching self-efficacy? We (1) synthesize the existing research on engineering teaching self-efficacy and (2) describe trends in research and uncover gaps that exist, including recommendations for future research. Among the 117 articles included in our full systematic review of science and engineering teaching self-efficacy, only 13 empirical studies focused specifically on engineering teaching self-efficacy. With a dearth of studies in both preservice and inservice contexts, there is a need for additional research on engineering teaching self-efficacy. In particular, longitudinal studies that track change over time and measure lasting effects of interventions. Further, detailed explorations of the factors that impact engineering teaching self-efficacy across multiple contexts are needed. Findings from these studies will help STEM educators to inform the design of preservice teacher education programs as well as inservice professional development opportunities. 

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5. Flipped Teaching Eased the Transition of Faculty to Remote Teaching During the COVID‐19 Pandemic

   https://doi.org/10.1096/fasebj.2021.35.S1.04624  

   Gopalan, Chaya; Serrano, Charles; Dickey, Paige; Bracey, Georgia; Fickas, Julie; Bartels, Lynn; Locke, Sharon (May 2021, The FASEB Journal)