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1. I will survive: Teachers reflect on motivations to remain in education amidst a global pandemic

   https://doi.org/10.1002/tea.21831  

   Wright, Diane S.; Weinberg, Andrea E.; Sample McMeeking, Laura B.; Lin Hunter, Danielle E.; Balgopal, Meena M. (November 2022, Journal of Research in Science Teaching)

   Abstract As the pandemic began to disrupt school systems in March 2020, teachers were expected to quickly modify their instructional approaches. We recruited science, technology, engineering, and mathematics teachers who were recipients of National Science Foundation scholarships based on their high‐quality academic record and commitment to working in high‐needs school districts to participate in a longitudinal survey study. Participants (n = 153) graduated from universities or colleges in the Mountain West or western region of the Midwest. Through a series of three surveys administered throughout 2020 to all participants and follow‐up focus group interviews with a subset (n = 42) in early 2021, we examined participants' perceptions and beliefs about the educational system's response to COVID‐19. Participants perceived that the continuation of instructional delivery was the highest priority and that their professional needs were the lowest priority. Most participants believed the actions taken by school districts and schools to be negative or neutral. Participants were categorized by years of experience (preservice 0, novice 1–3, early career 4–5, and master 6+) to compare their perceptions of success and intentions to continue teaching. Participants perceived that their level of success increased with years of professional experience prior to the pandemic, but all participants reported feeling less successful during the pandemic. Despite participants' negative beliefs about the school response and perceived low levels of success, they intended to remain in the classroom short‐term but not necessarily long term. We recommend that teacher educators and administrators (1) help teachers develop their personal knowledge and skills for use in the classroom, especially considering the national shortage of science (and STEM, broadly) teachers in high‐needs districts and (2) develop proactive plans for responding to unexpected crises on large scales, as well as those limited to a particular region. 

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2. A Case Study on Professional Development: Improving STEM Teaching in K-12 Education

   https://doi.org/10.46743/2160-3715/2020.4183  

   Rajbanshi, Roshani; Brown, Susan; Mucundanyi, Gaspard; Ozer, Mehmet; Delgardo, Nicole (January 2020, The Qualitative Report)

   null (Ed.)

   STEM Outreach Center is a non-profit educational center in southern New Mexico that supports K-12 STEM teachers and students by providing professional development, after school programs, summer camps, and field visits. This center has been organizing the Summer Institute Professional Development (SIPD) for more than ten years. The purpose of this research is to understand the effect of SIPD on teachers’ pedagogy to excite and engage students in STEM learning. This study contributes to the program evaluation by analyzing the experiences of teachers who participated in SIPD. This qualitative study uses the open-ended questionnaire as a method of data collection. The findings of this study show that teachers who attended the SIPD are eager to (i) integrate readings and arts in STEM teaching practices, (ii) improve their teaching pedagogies, and (iii) look for additional resources to support STEM teaching. Therefore, the authors recommend further research on how teachers transfer skills into their classrooms after attending SIPD. 

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3. How an undergraduate physical science course influences elementary teachers’ longer-term intentions to teach physical science

   Borges, I. Tapia (April 2022, Annual meeting program American Educational Research Association)

   Preservice science courses typically demonstrate valuable semester impacts on preservice teachers, but less is known about how such courses impact future teacher practice. Using the theory of planned behavior, this study investigates how an undergraduate Physical Science course, focused on the Next Generation Science Standards (NGSS), influences elementary teachers’ longer-term intentions to teach Physical Science. Data sources include a questionnaire with credential-candidate teachers (n=31), who completed a Physical Science course as undergraduates, and interviews with teacher educators, professional development providers, and practicing elementary teachers (n=9). Findings illustrate that credential-candidate teachers did not teach Physical Science during their teaching placements. Such findings were further supported by stakeholders. We detail strategies that could support elementary teachers’ teaching of Physical Science. 

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4. CCERS STEM + C – Emphasis on the Professional Learning of the Classroom Teachers – Expansion of the Pillar

   https://doi.org/10.5430/jct.v11n4p210  

   Birney, Lauren; McNamara, Denise M. (April 2022, Journal of Curriculum and Teaching)

   This qualitative study chronicles one of the fundamental pillars of the Curriculum and Community Enterprise for Restoration Science (CCERS). The professional development is focused on curricula that are grounded in the community-based environmental restoration of the waterways of New York Harbor. Centered on the restoration of the native oyster population, hundreds of New York City public school teachers take part in this experience with the intent of increasing their own place-based pedagogical content knowledge and skills. Most of the participants teach in school with populations that are underrepresented in post-secondary STEM majors and STEM related careers. Professional learning activities for teachers and community scientists were offered throughout the 2021 calendar year. Professional Learning Activity Surveys were administered and teachers responded to questions about how they participated in CCERS events, the ways in which CCERS participation has impacted their teaching practice, whether they use CCERS activities for student research, and ways CCERS participation impacts student STEM career interest. An intended outcome is to instill a STEM identity in students identifying as URM and to bring STEM career awareness to these students. More than 72% of the teachers in the professional development sessions agreed that the professional learning activities were effective in providing new STEM content knowledge and best practices for teaching. The majority also reported that the sessions enabled them to increase their students’ engagement with STEM and interest in STEM careers. 

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5. Just keep swimming: Increasing resilience of STEM preservice teachers during COVID-19

   Catherine M. Lussier University of California, Riverside Ashley M. (March 2023, Journal of instructional pedagogies)

   A substantial achievement gap between K-12 English learners (ELs) and non-ELs in science, technology, engineering, and mathematics (STEM) content areas exists, as indicated by national assessments of student outcomes. Considering the expected steady increase in students who are ELs in the U.S., determining methods for addressing this achievement gap is of immediate concern. Research has indicated this gap may be exacerbated by lack of adequate teacher preparation, specifically in STEM fields, to effectively teach students who are culturally and linguistically diverse (CLD). Founded in previous research about effective teacher preparation, the current case study pilots and reports on a model of early STEM preservice teacher training that integrates: knowledge of language development for ELs, early experiences with CLD learners, and professional development activities that guide the implementation of STEM pedagogical methods. Five STEM preservice teachers participated in a year-long supplemental training program focused on adapting STEM instruction for ELs. Components of the supplemental program included: (a) coursework extending teacher knowledge of EL language development, (b) fieldwork providing early exposure to research-based teaching experiences with EL students, and (c) professional development guiding the creation of hands-on STEM curriculum for diverse learners. Five secondary preservice teachers experienced increases in self-efficacy, growth in STEM instructional practices, and greater motivation for teaching in high-need schools. Results will inform educational models for improving STEM-EL teaching, thereby addressing a crucial need to serve the growing national population of underserved students. 

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