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1. Co-Constructing and Sharing STEAM Knowledge through a Culturally Relevant Literacy-Based Early Childhood School-University Partnership

   Caudle, Lori; Harper, Frances K.; Quinn, Margaret; Greene, Darelene (January 2021, Proceedings of the 2nd International Conference of the Journal Scuola Democratica)

   null (Ed.)

   Through school-university partnerships that situate learning within culturally relevant educational experiences, faculty, preservice teachers, and school-based educators are able to co-construct and share scientific knowledge. This knowledge consists of pedagogical content knowledge and funds of knowledge that include both knowledge and skills developed in cultural context that have evolved historically. In early childhood education, culturally relevant Science, Technology, Engineering, Arts, and Mathematics (STEAM) learning experiences are particularly important for young children's cognitive and social emotional development. This paper describes how intentional co-planning and collaboration to celebrate the US Read across America Day provided over 100 preschool children in eight classrooms with access to STEAM lessons virtually led by university preservice teachers in partnership with educators in the school. These activities engaged children in exploring art, computer science, physical science, engineering, and mathematics within the context of a culturally relevant version of the fairy tale Goldilocks and the Three Bears. Lessons implemented as part of school-university partnerships support Black and Latinx children's development of a sense of belonging in STEAM. Further, these experiences enhance teacher candidates' abilities to engage in culturally responsive STEAM teaching while receiving ongoing guidance and education from university faculty and school-based educators. Teacher education programs within higher education institutions should embrace school- university partnerships as contexts for the development of shared scientific knowledge and discourse since the benefits are twofold. First, children and teachers gain access to, and engage with, innovative STEAM experiences. Second, preservice teachers learn culturally relevant research-based instructional strategies through university coursework situated in authentic learning experiences; thus, their learning as teacher candidates is enhanced through planning, implementation, evaluation, and critical reflection. 

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2. “Science theatre makes you good at science”: Affordances of embodied performances in urban elementary science classrooms

   https://doi.org/10.1002/tea.21735  

   Varelas, Maria; Kotler, Rebecca_T; Natividad, Hannah_D; Phillips, Nathan_C; Tsachor, Rachelle_P; Woodard, Rebecca; Gutierrez, Marcie; Melchor, Miguel_A; Rosario, Maria (November 2021, Journal of Research in Science Teaching)

   Abstract School science continues to alienate students identifying with nondominant, non‐western cultures, and learners of color, and considers science as an enterprise where success necessitates divorcing the self and corporeal body from ideas and the mind. Resisting the colonizing pedagogy of the mind–body divide, we aimed at creating pedagogical spaces and places in science classes that sustain equitable opportunities for engagement and meaning making where body and mind are enmeshed. In the context of a partnership between school‐ and university‐based educators and researchers, we explored how multimodal literacies cultivated through the performing arts, provide students from minoritized communities opportunities to both create knowledge and to position themselves as science experts and brilliant and creative meaning makers. Four theoretical perspectives (social semiotics and multimodality; dramatizing and the embodied mind; dismantling master narratives for minoritized peoples; and the relationship of knowledge production and identity construction) framed this multiple case study of classes of elementary and middle school students who made sense of and communicated science concepts and practices through embodied performances. The study provided evidence that embodied science representations afford students abundant opportunities to construct science knowledge and positionings that support engagement with science, whether performed on a small scale in classrooms, or for the whole school through a large‐scale science play. Embodied dramatizing led to opportunities for collective meaning making as student‐performers coordinated across various movements and modes in order to represent ideas. Multiple enactments of the same concept nurtured the development of multi‐dimensional scientific, sociocultural, and sociopolitical meanings. During embodiments, students positioned themselves and others in ways that allowed expanded science identities to become possible, intertwined with other salient identities. By treating children's bodies as sites of knowledge, imagination, and expertise, integrating performing arts and science has the potential to facilitate the development of connections among ideas and between self and ideas. 

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3. Justice‐centered STEM education with multilingual learners to address societal challenges: A conceptual framework

   https://doi.org/10.1002/tea.21999  

   Lee, Okhee; Grapin, Scott (October 2024, Journal of Research in Science Teaching)

   Abstract We propose a conceptual framework for STEM education that is centered around justice for minoritized groups. Justice‐centered STEM education engages all students in multiple STEM subjects, including data science and computer science, to explain and design solutions to societal challenges disproportionately impacting minoritized groups. We articulate the affordances of justice‐centered STEM education for one minoritized student group that has been traditionally denied meaningful STEM learning: multilingual learners (MLs). Justice‐centered STEM education with MLs leverages the assets they bring to STEM learning, including their transnational experiences and knowledge as well as their rich repertoire of meaning‐making resources. In this position paper, we propose our conceptual framework to chart a new research agenda on justice‐centered STEM education to address societal challenges with all students, especially MLs. Our conceptual framework incorporates four interrelated components by leveraging the convergence of multiple STEM disciplines to promote justice‐centered STEM education with MLs: (a) societal challenges in science education, (b) justice‐centered data science education, (c) justice‐centered computer science education, and (d) justice‐centered engineering education. The article illustrates our conceptual framework using the case of the COVID‐19 pandemic, which has presented an unprecedented societal challenge but also an unprecedented opportunity to cultivate MLs' assets toward promoting justice in STEM education. Finally, we describe how our conceptual framework establishes the foundation for a new research agenda that addresses increasingly complex, prevalent, and intractable societal challenges disproportionately impacting minoritized groups. We also consider broader issues pertinent to our conceptual framework, including the social and emotional impacts of societal challenges; the growth of science denial and misinformation; and factors associated with politics, ideology, and religion. Justice‐centered STEM education contributes to solving societal challenges that K‐12 students currently face while preparing them to shape a more just society. 

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4. Socioscientific modelling as an approach towards justice-centred science pedagogy

   https://doi.org/10.14324/LRE.21.1.30  

   Lesnefsky, Rebecca R; Kirk, Eric A; Yeldell, Jasmyne; Sadler, Troy D; Ke, Li (January 2023, London Review of Education)

   Justice-centred science pedagogy has been suggested as an effective framework for supporting teachers in bringing in culturally relevant pedagogy to their science classrooms; however, limited instructional tools exist that introduce social dimensions of science in ways teachers feel confident navigating. In this article, we add to the justice-centred science pedagogy framework by offering tools to make sense of science and social factors and introduce socioscientific modelling as an instructional strategy for attending to social dimensions of science in ways that align with justice-centred science pedagogy. Socioscientific modelling offers an inclusive, culturally responsive approach to education in science, technology, engineering, the arts and mathematics through welcoming students’ diverse repertoires of personal and community knowledge and linking disciplinary knowledge with social dimensions. In this way, students can come to view content knowledge as a tool for making sense of inequitable systems and societal injustices. Using data from an exploratory study conducted in summer 2022, we present emerging evidence of how this type of modelling has shown students to demonstrate profound insight into social justice science issues, construct understandings that are personally meaningful and engage in sophisticated reasoning. We conclude with future considerations for the field. 

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5. Justice-Centered Computing Curriculum Design in Informal Learning

   Kivuva, M; Ross, D; Ko, A (July 2025, Proceedings of the 2025 Conference on Research on Equitable and Sustained Participation in Engineering, Computing, and Technology (RESPECT 2025))

   Some computing education researchers have shifted focus from broadening participation to justice-centered computing education (JCCE). JCCE teaches computing through its social-political implications, empowering students to create more just futures. While prior research theorizes and explores its classroom application, we know little about the collaborative processes instructors use to design and adapt curricula for such learning. We engaged in a 3-month curriculum co-design project as part of a research-practice partnership between a CS education researcher and an after-school STEAM instructor. Through duo-ethnography, we analyzed our curriculum design process. We highlight key emerging challenges and how we resolved them through the design process. Our findings focus on balancing students' technical proficiency with justice-centered pedagogy, showing that justice-centered curriculum design requires educators' ongoing content learning, reflection on positionality, and adaptability to students' needs, including those with disabilities. These findings bridge the theoretical discussion of justice-centered computing with the practical realities of curriculum design. 

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