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1. Culturally-sustaining and revitalizing computer science education for Indigenous students

   https://doi.org/10.1080/15391523.2024.2402348  

   Bowdon, Jill; Byers, Tia; Rich, Kathryn M; Spang, Marissa; Miller, Veronica; Singer, Elena; LeClair-Diaz, Amanda (September 2024, Journal of Research on Technology in Education)

   Computer science (CS) teachers are still learning how to enact culturally-sustaining/revitalizing CS education for Indigenous students. In response, elementary teachers on the Wind River Reservation, a professional development provider, researchers, and the Wyoming Department of Education formed a researcher-practitioner collaborative to implement and study the implementation of culturally- sustaining/revitalizing CS lessons using design-based implementation research (DBIR) practices. Researchers collected data via interviews, reflection forms, and observations. Findings indicated that teachers used students’ funds of knowledge to support engagement and expanded lessons to reflect Indigenous priorities of language revitalization and Tribal sovereignty. Creating culturally-sustaining/revitalizing CS education was a collective activity, drawing on interdependence of teachers and students. 

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2. Design Thinking and the Learning Sciences: Theoretical, Practical, and Empirical Perspectives

   Dahn, M. (January 2022, International Conference of the Learning Sciences (ICLS))

   J. Oshima, T. Mochizuki (Ed.)

   Community-based arts organizations curate and build experiences rooted in local culture through culturally sustaining practices. Through analysis of interviews with leaders at community-based arts organizations, we found that each took a different route to supporting culturally sustaining arts practices, which enacted relational elements of connected learning environments. We describe three models of culturally sustaining arts approaches (i.e., heritage and history, intergenerational, and youth culture) and suggest that each supports relational elements of connected learning. 

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3. Toward a justice‐centered ambitious teaching framework: Shaping ambitious science teaching to be culturally sustaining and productive in a rural context

   https://doi.org/10.1002/tea.21917  

   Luehmann, April; Zhang, Yang; Boyle, Heather; Tulbert, Eve; Merliss, Gena; Sullivan, Kyle (November 2023, Journal of Research in Science Teaching)

   Abstract We find ourselves at a time when the need for transformation in science education is aligning with opportunity. Significant science education resources, namely the Next Generation Science Standards (NGSS) and the Ambitious Science Teaching (AST) framework, need an intentional aim of centering social justice for minoritized communities and youth as well as practices to enact it. While NGSS and AST provide concrete guidelines to support deep learning, revisions are needed to explicitly promote social justice. In this study, we sought to understand how a commitment to social justice, operationalized through culturally sustaining pedagogy (Paris, Culturally sustaining pedagogies and our futures.The Educational Forum, 2021; 85, pp. 364–376), might shape the AST framework to promote more critical versions of teaching science for equity. Through a qualitative multi‐case study, we observed three preservice teacher teams engaged in planning, teaching, and debriefing a 6‐day summer camp in a rural community. Findings showed that teachers shaped the AST sets of practices in ways that sustained local culture and addressed equity aims: anchoring scientific study in phenomena important to community stakeholders; using legitimizing students' stories by both using them to plan the following lessons and as data for scientific argumentation; introducing local community members as scientific experts, ultimately supporting a new sense of pride and advocacy for their community; and supporting students in publicly communicating their developing scientific expertise to community stakeholders. In shaping the AST framework through culturally sustaining pedagogy, teachers made notable investments: developing local networks; learning about local geography, history, and culture; building relationships with students; adapting lessons to incorporate students' ideas; connecting with community stakeholders to build scientific collaborations; and preparing to share their work publicly with the community. Using these findings, we offer a justice‐centered ambitious science teaching (JuST) framework that can deliver the benefits of a framework of practices while also engaging in the necessarily more critical elements of equity work. 

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4. How an intensive summer course shapes practices in the classroom: Preservice teachers differentiating science content for multilingual students

   Vazquez_Dominguez, Max (February 2024, Conference of the Americas)

   Baldwin, Amy; Danns, Donna; Howe, Chad (Ed.)

   In this presentation, we will analyze and explain how three university faculty designed an intensive 12-day science methods course for preservice teachers to learn about science. The course, which is part of the Culturally Sustaining Pedagogies in Science for English Language Learners project funded by the National Science Foundation, is focused on differentiating science and engineering content for emerging bilingual students (English/Spanish). After the course, teacher educators then implement this content with 4th - 8th grade students in the STEM Summer Scholars Institute, a 15-day academic enrichment program for emerging bilingual students. Not only will we explain how this differentiation toolkit is helping preservice teachers to build more inclusive and supporting environments in science in their current practice, but we also explore how other content, such asco-teaching models and science and engineering methodologies, shaped their teaching skills. The differentiation toolkit consists of the use of technology, hands-on materials, and multimodalities, and we examine how the preservice teacher-students interactions are structured following a culturally and linguistically relevant methodology for the classroom. Project faculty and teacher educators will discuss our experiences in implementing these methodologies (science and culturally and linguistically relevant practices) including areas of growth. 

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5. Applying pre-service teacher training in computer science: Integration into secondary math classrooms

   Green, E; Campe, S; Renaud, D (March 2025, LearnTechLib)

   This paper explores the integration of computer science (CS) and computational thinking (CT) into middle and high school math classes by teachers who received pre-service CS training. Focusing on three participants within a larger study, the paper describes what they find relevant from their programs, how they apply CS/CT concepts and practices into their math instruction, and what role their value of CS/CT plays in their pedagogical approaches. Data were collected through two interviews and analyzed to present case studies. Findings describe how teachers’ integration of CS/CT varies from algorithmic thinking to prioritizing the process over the solution. Findings show the teachers’ motivation to bring CS to their students, whether by incorporating CS/CT practices in their math classroom or advocating for stand-alone classes. Recommendations for pre-service CS/CT-focused teacher preparation programs include greater emphasis on integration, culturally responsive teaching practices, and learning how to teach in addition to what to teach. 

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