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1. Transforming Science Teaching for Equity and Justice by Teachers and Researchers Working Together

   Kang, H.; Orduna Picón, R. (April 2021, 2021 AERA conference)

   With the urgent call for supporting science teachers to promote equity and justice through their daily work of teaching, there is a growing need for better understanding how science teachers come to engage in transformative teaching and learning that is equitably consequential. In this participatory design research project (Bang & Vossoughi, 2016), we created a professional learning context in which high school chemistry teachers engaged in a pedagogical imagining (Gutiérrez & Calabese Barton, 2015) by leveraging their teaching experiences, knowledge about students and communities, values, and concerns to create powerful learning contexts for Latinx and multilingual students from immigrant, low-income families. Drawing upon the perspective of learning as making and sharing of the world interwoven with making and sharing of selves (Warren et al, 2020), we analyzed teachers’ participations and discourses to examine teachers’ making and sharing that were equitably consequential. The findings illustrated three critical moments of teachers’ making and sharing where: (a) the teachers collectively developed shared pedagogical goals toward transformative learning while formulating agency, (b) the teachers and the researchers came to design a creative stoichiometry unit where students use chemistry to make their community better, and (c) the teachers came to be committed to being ‘intentional’ in their relational work to create a welcoming and safe learning environment using concrete pedagogical strategies. The analyses point out three design features of the professional learning context that were associated with the teachers’ consequential makings: (a) the use of a conceptual tool (i.e., ‘design principles’), (b) the power of “what if” discourses, and (c) creating a space for collective learning. Recommendations for designing professional learning context toward transformative teaching and learning are discussed. 

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2. Socioscientific issues: promoting science teachers’ pedagogy on social justice

   https://doi.org/10.1186/s43031-024-00118-4  

   Macalalag, Jr., Augusto_Z; Kaufmann, Alan; Van_Meter, Benjamin; Ricketts, Aden; Liao, Erica; Ialacci, Gabrielle (December 2024, Disciplinary and Interdisciplinary Science Education Research)

   Abstract Socioscientific issues (SSI) are problems involving the deliberate use of scientific topics that require students to engage in dialogue, discussion, and debate. The purpose of this project is to utilize issues that are personally meaningful and engaging to students, require the use of evidence-based reasoning, and provide a context for scientific information. Social justice is the pursuit of equity and fairness in society by ensuring that all individuals have opportunities to challenge and address inequalities and injustices to create a more just and equitable society for all (Killen et al. Human Development 65:257–269, 2021). By connecting science, technology, engineering, and mathematics (STEM) concepts to personally meaningful contexts, SSI can empower students to consider how STEM-based issues reflect moral principles and elements of virtue in their own lives and the world around them (Zeidler et al. Science Education 89:357–377, 2005). We employed a qualitative research design to answer the following questions: (1) In what ways, if any, did teachers help students grow their knowledge and practices on social justice through socioscientific issues? (2) In teachers’ perceptions, what components of SSI did students learn and what are their challenges? (3) In teachers’ perceptions, what are students’ stances on social justice? After completing the first year and second-year professional development programs, grades 6–12 STEM teachers were asked to complete a reflection on classroom artifacts. Teachers were asked to select student artifacts (e.g. assignments, projects, essays, videos, etc.) that they thought exemplified the students’ learning of SSI and stance on social justice. Based on 21 teacher-submitted examples of exemplar student work, we saw the following example pedagogies to engage their students on social justice: (a) making connections to real-world experiences, (b) developing a community project, (c) examining social injustice, and (d) developing an agency to influence/make changes. According to teachers, the most challenging SSI for students was elucidating their own position/solution, closely followed by employing reflective scientific skepticism. Moreover, the students exemplified reflexivity, metacognition, authentic activity, and dialogic conversation. Using SSI in classrooms allows students to tackle real-world problems, blending science and societal concerns. This approach boosts understanding of scientific concepts and their relevance to society. Identifying methods like real-world connections and examining social injustice helps integrate social justice themes into science education through SSI. Overall, SSI promotes interdisciplinary learning, critical thinking, and informed decision-making, enriching science education socially. This study highlights the value of integrating SSI in science education to engage students with social justice. 

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3. Beyond Content: The Role of STEM Disciplines, Real-World Problems, 21st Century Skills, and STEM Careers within Science Teachers’ Conceptions of Integrated STEM Education

   https://doi.org/10.3390/educsci11110737  

   Dare, Emily Anna; Keratithamkul, Khomson; Hiwatig, Benny Mart; Li, Feng (November 2021, Education Sciences)

   Understanding teachers’ conceptions surrounding integrated STEM education is vital to the successful implementation of integrated STEM curricula in K-12 classrooms. Of particular interest is understanding how teachers conceptualize the role of the STEM disciplines within their integrated STEM teaching. Further, despite knowing that content-agnostic characteristics of integrated STEM education are important, little is known about how teachers conceptualize the real-world problems, 21st century skills, and the promotion of STEM careers in their integrated STEM instruction. This study used an exploratory case study design to investigate conceptions of 19 K-12 science teachers after participating in an integrated STEM-focused professional development and implementing integrated STEM lessons into their classrooms. Our findings show that all teacher participants viewed STEM education from an integrative perspective that fosters the development of 21st century skills, using real-world problems to motivate students. Our findings also reveal that teachers have varying ideas related to the STEM disciplines within integrated STEM instruction, which could assist teacher educators in preparing high-quality professional development experiences. Findings related to real-world problems, 21st century skills, and STEM careers provide a window into how to best support teachers to include these characteristics into their teaching more explicitly. 

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4. We Strive: Initial Explorations of STEM Teachers’ Successes and Challenges in Implementing Socioscientific Issues.

   Johnson, J. (October 2022, Pennsylvania teacher educator)

   This study explores the experiences of two teachers participating in professional development workshops focused on supporting implementation of SocioScientific Issues (SSI) and aspects of social justice into STEM classrooms. SSI are ill-defined problems, with a basis in science, but necessarily include moral and ethical decisions that cannot be resolved through science alone. These debatable issues can enhance learning of STEM by engaging students in real-world and authentic problems. The USTRIVE project was developed to foster STEM learning through integrated professional development workshops and the development of professional learning communities to support teachers in the use of SSI and incorporation of aspects of social justice in their STEM classrooms. Two research questions were investigated: (a) To what extent did teachers implement SSI into their lesson planning during the project and (b) In what ways did teachers’ designed lessons change from the beginning of the workshop? 

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5. We Strive: Enhancing Implementation of Socioscientific Issues in STEM Classrooms Through Professional Development

   Johnson, J.; Macalalag, A.; Mathers-Lowery, B; Ialacci, G. (October 2022, Pennsylvania teacher educator)

   This study explores the experiences of two teachers participating in professional development workshops focused on supporting implementation of SocioScientific Issues (SSI) and aspects of social justice into STEM classrooms. SSI are ill-defined problems, with a basis in science, but necessarily include moral and ethical decisions that cannot be resolved through science alone. These debatable issues can enhance learning of STEM by engaging students in real-world and authentic problems. The USTRIVE project was developed to foster STEM learning through integrated professional development workshops and the development of professional learning communities to support teachers in the use of SSI and incorporation of aspects of social justice in their STEM classrooms. Two research questions were investigated: (a) To what extent did teachers implement SSI into their lesson planning during the project and (b) In what ways did teachers’ designed lessons change from the beginning of the workshop? 

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