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  1. Kurushima, Jennifer (Ed.)
    Mastery of quantitative skills is increasingly critical for student success in life sciences, but few curricula adequately incorporate quantitative skills. Quantitative Biology at Community Colleges (QB@CC) is designed to address this need by building a grassroots consortium of community college faculty to 1) engage in interdisciplinary partnerships that increase participant confidence in life science, mathematics, and statistics domains; 2) generate and publish a collection of quantitative skills–focused open education resources (OER); and 3) disseminate these OER and pedagogical practices widely, in turn expanding the network. Currently in its third year, QB@CC has recruited 70 faculty into the network and created 20 modules. Modules can be accessed by interested biology and mathematics educators in high school, 2-year, and 4-year institutions. Here, we use survey responses, focus group interviews, and document analyses (principles-focused evaluation) to evaluate the progress in accomplishing these goals midway through the QB@CC program. The QB@CC network provides a model for developing and sustaining an interdisciplinary community that benefits participants and generates valuable resources for the broader community. Similar network-building programs may wish to adopt some of the effective aspects of the QB@CC network model to meet their objectives. 
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  2. 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. null (Ed.)
  4. Barnard, Daron (Ed.)

    This report provides a broad overview of the 2019 Undergraduate Biology Education Research Gordon Research Conference, titled “Achieving Widespread Improvement in Undergraduate Education,” and the associated Gordon Research Seminar, highlighting major themes that cut across invited talks, poster presentations, and informal discussions.

     
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