Bee The CURE: Increasing Student Science Self-Efficacy, Science Identity, and Predictors of Scientific Civic Engagement in a Community College CURE.

"Bee the CURE" is a Power-of-Place course-based undergraduate research experience (PoP-CUREs; Jaeger et al., 2024) that combines place-based education (Demarest, 2014; Gruenewald, 2014) with CUREs, emphasizing student scientific civic engagement where research is relevant to the community where the research is taking place. PoP-CUREs have potential to build students' knowledge, skills, value, and self-efficacy when engaging with the public using science skills (i.e., scientific civic engagement). A mixed-methods sequential explanatory design utilizing surveys and semistructured interviews was used for this study (Warfa, 2016). Students made gains in science self-efficacy over the course of the semester and showed a trend of increasing science identity in both Fall 2021 and Spring 2022 semesters. Students' scientific civic knowledge, or a student's sense of how to use or apply knowledge and skills to help a community, increased significantly, while other predictors of scientific civic engagement started high and remained high throughout the course. Bee the CURE demonstrates psychosocial outcomes that are similar to previously studied CUREs and expands our understanding of how PoP-CUREs might influence outcomes with evidence that an important predictor of future scientific civic engagement increases. Implications for PoP-CURE instruction at Hispanic serving community colleges are discussed.

Authentic Inquiry through Modeling in Biology (AIM-Bio): An Introductory Laboratory Curriculum That Increases Undergraduates' Scientific Agency and Skills.

Providing opportunities for science, technology, engineering, and mathematics undergraduates to engage in authentic scientific practices is likely to influence their view of science and may impact their decision to persist through graduation. Laboratory courses provide a natural place to introduce students to scientific practices, but existing curricula often miss this opportunity by focusing on confirming science content rather than exploring authentic questions. Integrating authentic science within laboratory courses is particularly challenging at high-enrollment institutions and community colleges, where access to research-active faculty may be limiting. The Authentic Inquiry through Modeling in Biology (AIM-Bio) curriculum presented here engages students in authentic scientific practices through iterative cycles of model generation, testing, and revision. AIM-Bio university and community college students demonstrated their ability to propose diverse models for biological phenomena, formulate and address hypotheses by designing and conducting experiments, and collaborate with classmates to revise models based on experimental data. Assessments demonstrated that AIM-Bio students had an enhanced sense of project ownership and greater identification as scientists compared with students in existing laboratory courses. AIM-Bio students also experienced measurable gains in their nature of science understanding and skills for doing science. Our results suggest AIM-Bio as a potential alternative to more resource-intensive curricula with similar outcomes.