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1. Preservice elementary teachers' perceptions of their science laboratory instructors in a phenomena‐based laboratory and how it impacts their conceptual development

   https://doi.org/10.1002/tea.21926  

   Sangha, Alvir S.; Donnelly‐Hermosillo, Dermot F.; Nelson, Frederick P. (February 2024, Journal of Research in Science Teaching)

   Phenomena‐based approaches have become popular for elementary school teachers to engage children's innate curiosity in the natural world. However, integrating such phenomena‐based approaches in existing science courses within teacher education programs present potential challenges for both preservice elementary teachers (PSETs) and for laboratory instructors, both of whom may have had limited opportunities to learn or teach science within the student and instructor roles inherent within these approaches. This study uses a convergent parallel mixed‐methods approach to investigate PSETs' perceptions of their laboratory instructor's role within a Physical Science phenomena‐based laboratory curriculum and how it impacts their conceptual development (2 instructors/121 students). We also examine how the two laboratory instructors' discursive moves within the laboratory align with their's and PSETs' perceptions of the instructor role. Qualitative data includes triangulation between a student questionnaire, an instructor questionnaire, and video classroom observations, while quantitative data includes a nine‐item open response pre‐/post‐semester conceptual test. Guided by Mortimer's and Scott's analytic framework, our findings show that students primarily perceive their instructors as a guide/facilitator or an authoritarian/evaluator. Using Linn's knowledge integration framework, analysis of pre‐/post‐tests indicates that student outcomes align with students' perceptions of their instructors, with students who perceive their instructor as a guide/facilitator having significantly better pre‐/post‐outcomes. Additional analysis of scientific discourse from the classroom observations illustrates how one instructor primarily supports PSETs' perspectives on authentic science learning through dialogic–interactive talk moves whereas the other instructor epistemologically stifles personally relevant investigations with authoritative–interactive or authoritative–noninteractive discourse moves. Overall, this study concludes by discussing challenges facing laboratory instructors that need careful consideration for phenomena‐based approaches. 

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2. Constructing Instructors’ Classroom Practices from Students’ Survey Responses

   Adiredja, A P; Kale; B; Jarnutowski, B (August 2025, Proceedings of the 27th Annual Conference on Research in Undergraduate Mathematics Education, SIGMAA on RUME.)

   Cook, S; Katz, B P; Melhuish, K (Ed.)

   This preliminary report shares an outcome from a summer professional development (PD) activity with university instructors. Instructors participated in four PD meetings, then immediately taught a five-day summer workshop using inquiry, working primarily with first-generation minoritized students. While instructor participants’ exit interviews of the project identified their experience in the summer PD as pivotal to their development, we know little of how students experienced the instructors’ teaching during the workshop. Our analysis focuses on two items from student post-workshop survey wherein students shared their feedback of their instructor and their experiences more broadly. This analysis allowed us to get a good sense of the instructors’ individual practices and revealed convergence in their practices. Pedagogically, instructors utilized group work and deemphasized direct instructions, while prioritizing students’ engagement in discussions and struggling through conceptual ideas. Relationally, instructors were responsive to students’ mathematical needs and created a respectful, safe, and welcoming classroom environment. 

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3. Longitudinal Associations between Learning Assistants and Instructor Effectiveness

   https://doi.org/10.1119/perc.2017.pr.015  

   Caravez, Daniel; De La Torre, Angelica; Nissen, Jayson M.; Van Dusen, Ben (January 2018, Proc. 2017 Physics Education Research Conference)

   A central goal of the Learning Assistant (LA) model is to improve students’ learning of science through the transformation of instructor practices. There is minimal existing research on the impact of college physics instructor experiences on their effectiveness. To investigate the association between college introductory physics instructors’ experiences with and without LAs and student learning, we drew on data from the Learning About STEM Student Outcomes (LASSO) database. The LASSO database provided us with student-level data (concept inventory scores and demographic data) for 4,365 students and course-level data (instructor experience and course features) for the students’ 93 mechanics courses. We performed Hierarchical Multiple Imputation to impute missing data and Hierarchical Linear Modeling to nest students within courses when modeling the associations be- tween instructor experience and student learning. Our models predict that instructors’ effectiveness decreases as they gain experience teaching without LAs. However, LA supported environments appear to remediate this decline in effectiveness as instructor effectiveness is maintained while they gain experience teaching with LAs. 

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4. Data Science in Undergraduate Life Science Education: A Need for Instructor Skills Training

   https://doi.org/10.1093/biosci/biab107  

   Emery, Nathan C; Crispo, Erika; Supp, Sarah R; Farrell, Kaitlin J; Kerkhoff, Andrew J; Bledsoe, Ellen K; O'Donnell, Kelly L; McCall, Andrew C; Aiello-Lammens, Matthew E (October 2021, BioScience)

   Abstract There is a clear demand for quantitative literacy in the life sciences, necessitating competent instructors in higher education. However, not all instructors are versed in data science skills or research-based teaching practices. We surveyed biological and environmental science instructors (n = 106) about the teaching of data science in higher education, identifying instructor needs and illuminating barriers to instruction. Our results indicate that instructors use, teach, and view data management, analysis, and visualization as important data science skills. Coding, modeling, and reproducibility were less valued by the instructors, although this differed according to institution type and career stage. The greatest barriers were instructor and student background and space in the curriculum. The instructors were most interested in training on how to teach coding and data analysis. Our study provides an important window into how data science is taught in higher education biology programs and how we can best move forward to empower instructors across disciplines. 

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5. An Explicit and Reflective Approach to Teaching Nature of Science in a Course-Based Undergraduate Research Experience

   https://doi.org/10.1007/s11191-023-00441-8  

   Witucki, Allison; Beane, Wendy; Pleasants, Brandy; Dai, Peng; Rudge, David Wÿss (April 2023, Science & Education)

   Involving undergraduate STEM majors in authentic research has been cited as being an imperative goal in advancing the field of science and preparing students for careers and post-graduate educational programs. An important component of authentic research that is often overlooked is student understanding of the Nature of Science (NOS) and how this relates to novel research. Previous research in these authentic settings appears to have depended upon an implicit approach to the teaching of NOS, and, not surprisingly, these studies revealed that students’ understandings only marginally improved. Research in authentic setting since indicates students develop deeper understandings of NOS in general, but struggle with more abstract concepts, such as the role of social and cultural influences as well as imagination and creativity in science. Therefore, the purpose of this qualitative study is to examine student understanding of these NOS concepts as they are engaged in novel research. NOS concepts were introduced using an explicit and reflective approach. Specifically, students were engaged with reflection questions, in-class discussions, historical narratives, and autobiographical stories of the instructor as they explored the NOS concepts and how these relate to scientific research. Student NOS understandings (n = 16) were measured pre/post using the SUSSI with semi-structured interviews taking place at the end of the course. The findings from the interviews revealed that students understanding of the NOS concepts improved. Students came to better understand how society and culture impact scientific research, and how imagination and creativity are used throughout the entire scientific process. Students largely cited the reflection questions and in-class discussions as contributing to their change in understanding in their responses to how their views changed. In discussing society and culture, students noted that they better understood how society impacts what and how research is conducted as well as noting instances where gender bias is still present in science today. Likewise, students indicated during the interviews how they came to understand how imagination and creativity can be found throughout the entire scientific process instead of just the stage where a research question is posed. This study shows the importance of discussing NOS using an explicit/reflective approach as it relates to authentic research in helping students develop deeper understandings. 

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