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1. Transfer-bound community college students’ biology identity and perception of teaching

   https://doi.org/10.1128/jmbe.00116-23  

   Teshera-Levye, Jennifer; Atchison, Tammy; Callis-Duehl, Kristine; Gould, Thomas; Lichti, Deborah; Scemama, Jean-Luc; Stiller, John; Vance-Chalcraft, Heather D (December 2023, Journal of Microbiology & Biology Education)

   Parks, Samantha T (Ed.)

   Community colleges are frequently an affordable, accessible entrance to a Science, Technology, Engineering, and Mathematics (STEM) education and career, but the transition from a 2-year program to a 4-year institution can be tumultuous. In this mixed-methods study, we explore the experiences of transfer and prospective transfer students. Through surveys and interviews, we identify the challenges faced by and the supports desired by biology transfer students. We describe how community college students perceive their introductory biology courses, and we compare the biology identity and self-efficacy of these students to peers at a 4-year institution. Students expressed uncertainty about what to expect from the transfer experience, and they benefitted from interventions that made the university experience more concrete or clarified their expectations. We found that community college students are just as interested in biology as peers at a 4-year university, but they are significantly less likely to believe that others recognize them as “biology people” and report less self-efficacy regarding biology courses. Students felt particularly well-prepared for transfer after community college biology courses they described as “rigorous” and “demanding,” especially because students expressed that the community college environment helped support them through the challenges of higher education. 

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2. “I think”: integrating project-based learning and case study to teach fundamentals of evolutionary tree-thinking

   https://doi.org/10.1186/s12052-023-00192-8  

   Firneno, Thomas J.; Welsh, Gabrielle T.; Nimlos, Peter J.; Larson, Erica L. (December 2023, Evolution: Education and Outreach)

   The theory and practice of evolutionary tree-thinking is pervasive through many scientific fields and is a critical component of biological literacy. Many elements of tree-thinking are introduced early in undergraduate biology education. However, basic concepts are often not revisited/reinforced and are assumed to have been fully conceptually grasped in upper-level courses and beyond. Here, we present a project-based activity that we developed to aid upper-level biology students to learn, conceptualize, and practice tree-thinking. This approach allows them to identify the misconceptions that they may have about tree-thinking, while reinforcing the theories and concepts that they may have encountered in introductory courses. It also integrates several pedagogical styles (instructor-led and student-centered), along with an organismal case study to make concepts concrete and realistic to students. 

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3. Triage and Recovery of STEM Laboratory Skills

   https://doi.org/10.1128/jmbe.v22i1.2565  

   Sonbuchner, Timothy M.; Mundorff, Emily C.; Lee, Jacqueline; Wei, Sujun; Novick, Peter A. (April 2021, Journal of Microbiology & Biology Education)

   null (Ed.)

   ABSTRACT The global COVID-19 pandemic left universities with few options but to turn to remote learning. With much effort, STEM courses made this change in modality; however, many laboratory skills, such as measurement and handling equipment, are more difficult to teach in an online learning environment. A cohort of instructors who are part of the NSF RCN-UBE funded Sustainable, Transformative Engagement across a Multi-Institution/Multidisciplinary STEM (STEM 2 ) Network (a working group of faculty from two community colleges and three 4-year universities) analyzed introductory biology and chemistry courses to identify essential laboratory skills that students will need in advanced courses. Seven essential laboratory proficiencies were derived from reviewing disciplinary guiding documents such as AAAS’s Vision and Change in Undergraduate Biology Education, the American Society for Microbiology’s Recommended Curriculum Guidelines for Undergraduate Microbiology Education , and the American Chemical Society’s Guidelines for Chemistry : data analysis, scientific writing, proper handling and disposal of laboratory materials, discipline-specific techniques, measurement, lab safety and personal protective equipment, and interpersonal and collaborative skills. Our analysis has determined that some of these skills are difficult to develop in a remote online setting but could be recovered with appropriate interventions. Skill recovery procedures suggested are a skills “boot camp,” department and college coordinated club events, and a triage course. The authors recommend that one of these three recovery mechanisms be offered to bridge this skill gap and better prepare STEM students for upper-level science courses and the real world. 

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4. Addressing the Unique Qualities of Upper-Level Biology Course-based Undergraduate Research Experiences through the Integration of Skill-Building

   https://doi.org/10.1093/icb/icab006  

   Beatty, Abby E; Ballen, Cissy J; Driessen, Emily P; Schwartz, Tonia S; Graze, Rita M (May 2021, Integrative and Comparative Biology)

   null (Ed.)

   Synopsis  Early exposure to course-based undergraduate research experiences (CUREs) in introductory biology courses can promote positive student outcomes such as increased confidence, critical thinking, and views of applicability in lower-level courses, but it is unknown if these same impacts are achieved by upper-level courses. Upper-level courses differ from introductory courses in several ways, and one difference that could impact these positive student outcomes is the importance of balancing structure with independence in upper-level CUREs where students typically have more autonomy and greater complexity in their research projects. Here we compare and discuss two formats of upper-level biology CUREs (Guided and Autonomous) that vary along a continuum between structure and independence. We share our experiences teaching an upper-level CURE in two different formats and contrast those formats through student reported perceptions of confidence, professional applicability, and CURE format. Results indicate that the Guided Format (i.e., a more even balance between structure and independence) led to more positive impacts on student outcomes than the Autonomous Format (less structure and increased independence). We review the benefits and drawbacks of each approach while considering the unique elements of upper-level courses relative to lower-level courses. We conclude with a discussion of how implementing structured skill-building can assist instructors in adapting CUREs to their courses. 

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5. College Student Meaning Making and Interest Maintenance During COVID-19: From Course-Based Undergraduate Research Experiences (CUREs) to Science Learning Being Off-Campus and Online

   https://doi.org/10.3389/feduc.2020.590738  

   Wang, Cong; Bauer, Melanie; Burmeister, Alita R.; Hanauer, David I.; Graham, Mark J. (December 2020, Frontiers in Education)

   null (Ed.)

   In response to the outbreak of COVID-19 the national landscape of higher education changed quickly and dramatically to move “online” in the Spring semester of 2020. While distressing to both faculty and students, it presents a unique opportunity to explore how students responded to this unexpected and challenging learning situation. In four undergraduate STEM courses that incorporated course-based undergraduate research experiences (CUREs)—which are often focused on discovery learning and laboratory research—we had an existing study in progress to track students' interest development at five time points over the Spring 2020 semester. Via this ongoing study we were able to investigate how students stay engaged in their college science courses when facing unexpected challenges and obstacles to their learning. Longitudinal survey data from 41 students in these CURE courses demonstrated that students' situational interest dropped significantly when their CURE courses unexpectedly shifted from hands-on, discovery-based, and laboratory-based instruction to online instruction. Although we observed a dramatic decline in student interest in general after the CURE courses moved fully online, the decline rates varied across students. Students who were able to make meaningful connections between the learning activities and their personal or career goals were more likely to maintain a higher level of interest in the course. Implications for practice are discussed. 

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