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1. Evaluating the Representation of Community Colleges in Biology Education Research Publications following a Call to Action

   https://doi.org/10.1187/cbe.21-09-0249  

   Creech, Catherine; Just, Jan; Hammarlund, Sarah; Rolle, Cleo E.; Gonsar, Ngawang Y.; Olson, Alyssa; Campbell, Nikaila; Mennes, Karissa; Adoradio, Cecilia; Soneral, Paula; et al (December 2022, CBE—Life Sciences Education)

   Tanner, Kimberly (Ed.)

   This paper examines the extent to which community college biology education research (CC BER) has progressed since initial calls for broadening participation by comparing the number of CC BER publications, identifies barriers to and opportunities for community college faculty BER participation, and highlights the importance of institutional networks as a driver for incorporating CC faculty in BER. 

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2. Supporting biology education research at community colleges: Implementing and adapting evidence‐based practices

   https://doi.org/10.1002/cc.20534  

   Cotter, Robin; Kiser, Stacey; Rasmussen, Jed; Vemu, Sheela (June 2022, New Directions for Community Colleges)

   Abstract Biology education research (BER), currently conducted mostly at four‐year colleges and universities, is changing the culture of teaching biology and improving student success. We are community college faculty participating in the NSF‐funded CC Bio INSITES network, getting training and support in BER to ask questions to improve student success in our highly diverse classes. Our research adapts and validates existing BER surveys and interventions in Hispanic‐serving college settings, with pre‐health professions’ students, and with traditionally underserved populations in STEM. BER projects serve assessment and program review goals common across many community colleges, and when implemented with high‐impact practices, BER measures the gains in student retention and success. We call for support to continue changing the culture of discipline‐based education research at community colleges. 

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3. Communities Support Engineering as a College Major Choice

   https://doi.org/10.18260/1-2--34307  

   Vaziri, S.L.; Paretti, M.C.; Grohs, J.R.; Baum, L.M.; Lester, M.M.; Newbill, P.L. (July 2020, Zone 1 Conference of the American Society for Engineering Education)

   Broadening participation in engineering is critical given the gap between the nation’s need for engineering graduates and its production of them. Efforts to spark interest in engineering among PreK-12 students have increased substantially in recent years as a result. However, past research has demonstrated that interest is not always sufficient to help students pursue engineering majors, particularly for rural students. In many rural communities, influential adults (family, friends, teachers) are often the primary influence on career choice, while factors such as community values, lack of social and cultural capital, limited course availability, and inadequate financial resources act as potential barriers. To account for these contextual factors, this project shifts the focus from individual students to the communities to understand how key stakeholders and organizations support engineering as a major choice and addresses the following questions: RQ1. What do current undergraduate engineering students who graduated from rural high schools describe as influences on their choice to attend college and pursue engineering as a post-secondary major? RQ2. How does the college choice process differ for rural students who enrolled in a 4-year university immediately after graduating from high school and those who transferred from a 2-year institution? RQ3. How do community members describe the resources that serve as key supports as well as the barriers that hinder support in their community? RQ4. What strategies do community members perceive their community should implement to enhance their ability to support engineering as a potential career choice? RQ5. How are these supports transferable or adaptable by other schools? What community-level factors support or inhibit transfer and adaptation? To answer the research questions, we employed a three-phase qualitative study. Phase 1 focused on understanding the experiences and perceptions of current [University Name] students from higher-producing rural schools. Analysis of focus group and interview data with 52 students highlighted the importance of interest and support from influential adults in students’ decision to major in engineering. One key finding from this phase was the importance of community college for many of our participants. Transfer students who attended community college before enrolling at [University Name] discussed the financial influences on their decision and the benefits of higher education much more frequently than their peers. In Phase 2, we used the findings from Phase 1 to conduct interviews within the participants’ home communities. This phase helped triangulate students’ perceptions with the perceptions and practices of others, and, equally importantly, allowed us to understand the goals, attitudes, and experiences of school personnel and local community members as they work with students. Participants from the students’ home communities indicated that there were few opportunities for students to learn more about engineering careers and provided suggestions for how colleges and universities could be more involved with students from their community. Phase 3, scheduled for Spring 2020, will bring the findings from Phases 1 and 2 back to rural communities via two participatory design workshops. These workshops, designed to share our findings and foster collaborative dialogue among the participants, will enable us to explore factors that support or hinder transfer of findings and to identify policies and strategies that would enhance each community’s ability to support engineering as a potential career choice. 

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4. The impact of a multimodal professional network on developing social capital and research capacity of faculty at historically black colleges and universities

   https://doi.org/10.1007/s10639-022-11464-z  

   Ives, Jillian; Drayton, Brian; Hobbs, Kathryn; Falk, Joni (December 2022, Education and Information Technologies)

   Abstract This qualitative case study examined how a multimodal professional network environment (STEM for all Video Showcase) affected five STEM educational researchers’ capacity to engage in grant funded research at U.S. Historically Black Colleges and Universities (HBCUs). Guided by the social capital and professional network literature as a conceptual framework, we analyzed data from surveys, interviews, and online discussion posts. We aimed to understand HBCU-based researchers’ supports and barriers in writing and/or conducting grant funded research in STEM education, and ways in which the multimodal professional network experience supported their research and professional networking, if at all. We found that organizational structures shaped participants’ social capital as well as their grant funded research activities. Further, participating in a multimodal professional network enabled participants to further develop their research capacity and to also expand their collegial networks. We offer recommendations for institutions to support the research endeavors of their faculty and suggest ways in which organizations using or developing professional multimodal networks can enhance faculty research development. 

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5. Examining the Effects of Peer-Led Team Learning as a Support for Community College Transfer Students’ STEM Achievement

   https://doi.org/10.3390/educsci14090945  

   Meador, Audrey; Lockwood, Pamela; Subburaj, Vinitha; Subburaj, Anitha (August 2024, Education Sciences)

   Peer-led Team Learning (PLTL) is a model of instruction and learning that has been used to address low success rates in various science, technology, engineering, and mathematics (STEM) courses and other fields in higher education. (1) While research conveying the efficacy of this model of instruction remains mixed, this project sought to add to the body of knowledge communicating the benefits of PLTL for STEM achievement. This study examined the experiences of STEM community college transfer students’ engagement in PLTL within their major course of study when a suite of supports was provided. (2) Specifically, study participants were enrolled in degree programs at a four-year rural, regional university in the engineering, computer science, and mathematics (ECSM) fields and were provided social, financial, and academic assistance. Qualitative analysis of the data revealed that with a PLTL component, community college transfer students were more likely to participate, engage, and perform better in coursework given the additional supports. (3) Study participants indicated the community of learners created through PLTL was a primary motivator for continued engagement and progress towards ECSM degree attainment. (4) Implications for practice extend to engagement and retention efforts of STEM students from the community college population 

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