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1. 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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2. 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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3. 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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4. Communities of practice and the elevation of urban elementary teacher discourse about critical pedagogy of place

   https://doi.org/10.1007/s11422-024-10221-7  

   Richmond, Gail; Hunter, Roberta; Tal, Tali; Tukurah, Grace (July 2024, Cultural Studies of Science Education)

   Abstract Children who live in under-resourced communities and attend under-resourced schools deserve access to high-quality teachers and educational opportunities to support their success and well-being. This study emerged from a professional development (PD) for urban teachers working in such schools, to expand educational opportunities for elementary students through outdoor science teaching. Engaging frameworks of communities of practice (CoP) and critical pedagogy of place (CPP), this critical ethnographic study investigates how urban elementary teachers engage in discourse about critical issues of place. Additionally, the investigation seeks to understand how a CoP supports such discourse. The primary data for this study were multiple sets of researcher field notes collected from participant teachers during virtual spring and in-person summer PD. Over the course of the PD, participants shifted from viewing their outdoor teaching spaces with a deficit perspective to an asset-focused one. As they visited one another’s teaching sites, the CoP the teachers were a part of created opportunity for discourse about social justice linked to issues of place within their particular school neighborhoods. The ability of urban elementary teachers to connect social justice to issues of place and to the teaching of science has implications for countering the injustice that characterizes many urban communities in the USA and elsewhere. 

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5. The Effects of a Modeling and Computational Thinking Professional Development Program on STEM Educators’ Perceptions toward Teaching Science and Engineering Practices

   https://doi.org/10.3390/educsci12080570  

   Colclasure, Blake C.; Durham Brooks, Tessa; Helikar, Tomáš; King, Scott J.; Webb, Audrey (August 2022, Education Sciences)

   Teachers’ integration of the Next Generation Science Standards and corresponding Science and Engineering Practices (SEPs) illustrate current science education reform in the United States. Effective teacher professional development (PD) on SEPs is essential for reform success. In this study, we evaluated the Nebraska STEM Education Conference, a PD program for middle school, high school, and first- and second-year post-secondary STEM teachers. This SEP-oriented PD program focused predominantly on the SEPs ‘developing and using models’ and ‘using mathematics and computational thinking.’ An electronic survey was used to measure participants’ (n = 45) prior integration of SEPs, influential factors and barriers to using SEPs, and changes to interest and confidence in using SEPs as a result of attending the PD program. Our results showed that teachers had limited prior use of SEPs in their teaching. Student interest and learning outcomes were the factors found to be most influential to teachers’ use of SEPs, while limited knowledge, confidence, and resources were the most commonly identified barriers. As a result of attending the PD program, participants significantly improved their confidence and interest to incorporate SEPs. We recommend continued SEP-oriented PD to foster successful NGSS integration and to advance reforms in science education. 

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