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1. Elementary preservice teachers' use of prompts to encourage student‐to‐student talk during simulated argumentation discussions

   https://doi.org/10.1111/ssm.12685  

   Masters, Heidi L; Lottero‐Perdue, Pamela S; Placa, Nicora; Galindo, Enrique; Mikeska, Jamie N; Howell, Heather (June 2024, School Science and Mathematics)

   Providing opportunities for students to talk directly with their peers is a critical dimension to facilitating discussions in mathematics and science, including argumentation‐focused discussions in which students construct arguments and critique others' arguments. Research suggests that supporting student‐to‐student talk and facilitating argumentation discussions are complex and challenging practices for preservice teachers (PSTs). Elementary PSTs from two mathematics and two science methods courses practiced facilitating student‐to‐student talk within the context of an argumentation‐focused discussion. This study's main purpose was to explore the prompts that 29 PSTs used to encourage student‐to‐student talk in a simulated classroom. Findings show the PSTs were able to use direct prompts that encourage student‐to‐student talk but were just as likely to use prompts that may discourage students from talking to each other. Most direct prompts PSTs used to encourage student‐to‐student talk were for the purpose of argumentation construction and/or critique. PSTs were more likely to use indirect prompts, much like Talk Moves, that encourage students to consider others' ideas rather than requesting that students talk with each other. These findings have important implications for future research, as well as for teacher educators and professional learning facilitators who support teachers learning to encourage student‐to‐student talk during argumentation‐focused discussions. 

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2. A Study of Teacher Sensemaking about Productive Student Talk in Science Classrooms

   Vande Zande, D. & (January 2021, National Association for Research in Science Teaching Annual Meeting 2021)

   null (Ed.)

   One way to support teachers' learning to facilitate the recent reform vision (NRC, 2012) in their classrooms is through professional development (PD). We explored a biology teacher’s (Monica) sensemaking during the PD that focused on facilitating productive science classroom discourse to understand her responses to the PD in terms of teaching science by engaging students in productive talk in science classrooms. Using both video and interview data, we analyzed the process of her sensemaking about facilitating (productive) talk during the PD and the meaning she was making of productive talk. Our analysis indicated that Monica participated in sensemaking mostly about her students' participation in talk. Throughout the PD conversations, she rarely focused on what she could do (or could have done) to facilitate student talk without the PD facilitators' pressing. This is supported by our analysis of the interviews with Monica, which showed that the sense that she was making about productive talk mostly focuses on students' contributions to the talk and their accountability to reasoning, scientific knowledge, and sensemaking. These findings provide implications for facilitating teachers’ sensemaking around new instructional practices and reforms within PD contexts. 

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3. Teachers' Instructional Vision and Practices around Promoting Productive Talk in Science Classrooms

   Akcil-Okan, O; Tekkumku-Kisa, M. (January 2022, National Association for Research in Science Teaching Annual Meeting)

   To support students’ learning, a wide body of research and instructional reforms emphasize students’ engagement in productive talk with rigorous thinking in science classrooms. However, despite efforts, productive science talk is not yet prevalent in many classrooms. To gain more insight into the generation of productive talk in science classrooms, we explored a group of science teachers’ instructional vision and practices with respect to promoting classroom discourse. Our analysis revealed variations in teachers’ instructional visions and quality of instruction in their classrooms. In most cases, there was an alignment between teachers’ instructional vision and practices. We observed high quality instruction in terms of facilitating productive discussions and rigorous students’ thinking in the classroom of teachers with sophisticated instructional vision. Low instructional quality is observed in the classrooms of teachers with less articulate instructional vision of productive classroom discussion. We contend that exploring science teachers’ instructional vision and their instructional practices together can provide a powerful lens to identify the areas of improvement for promoting high-quality instruction in many science classrooms. Moreover, working towards the development of a shared vision of instruction by stakeholders and teachers can support enactment of high-quality science instruction. 

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4. Using AI to Promote Equitable Classroom Discussions: The TalkMoves Application

   Suresh, A.; Jacobs, J.; Clevenger, C.; Lai, V.; Tan, C.; Martin, J. H.; Sumner, T. (July 2021, International Conference on Artificial Intelligence in Education)

   null (Ed.)

   Inclusion in mathematics education is strongly tied to discourse rich classrooms, where students ideas play a central role. Talk moves are specific discursive practices that promote inclusive and equitable participation in classroom discussions. This paper describes the development of the TalkMoves application, which provides teachers with detailed feedback on their usage of talk moves based on accountable talk theory. Building on our recent work to automate the classification of teacher talk moves, we have expanded the application to also include feedback on a set of student talk moves. We present results from several deep learning models trained to classify student sentences into student talk moves with performance up to 73% F1. The classroom data used for training these models were collected from multiple sources that were pre-processed and annotated by highly reliable experts. We validated the performance of the model on an out-of-sample dataset which included 166 classroom transcripts collected from teachers piloting the application. 

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5. The Classroom‐Research‐Mentoring Framework: A lens for understanding science practice‐based instruction

   https://doi.org/10.1002/sce.21835  

   Cooper, Alexandra C.; Bolger, Molly S. (January 2023, Science Education)

   Abstract Reformed science curricula provide opportunities for students to engage with authentic science practices. However, teacher implementation of such curricula requires teachers to consider their role in the classroom, including realigning instructional decisions with the epistemic aims of science. Guiding newcomers in science can take place in settings ranging from the classroom to the undergraduate research laboratory. We suggest thinking about the potential intersections of guiding students across these contexts is important. We describe the Classroom‐Research‐Mentoring (CRM) Framework as a novel lens for examining science practice‐based instruction. We present a comparative case study of two teachers as they instruct undergraduate students in a model‐based inquiry laboratory. We analyzed stimulated‐recall episodes uncovering how these teachers interacted with their students and the rationale behind their instructional choices. Through the application of the CRM Framework, we revealed ways teachers can have instructional goals that align with those of a research mentor. For example, our teachers had the goals of “creating an inclusive environment open to student ideas,” “acknowledging students as scientists,” and “focusing students on skills and ideas needed to solve biological problems.” We suggest three functions of research mentoring that translate across the classroom and research laboratory settings: (1) build a shared understanding of epistemic aims, (2) support learners in the productive use of science practices, and (3) motivate learner engagement in science practices. 

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