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1. Advancing undergraduate research through regional community college partnerships at Portland State University

   Rice, A.; Loikith, P.; Murry, A. (December 2023, Transactions American Geophysical Union)

   Opportunities for undergraduate research in STEM programs at community colleges can be few where lower-division science curriculum emphasizes classroom and laboratory-based learning and research laboratories are limited in number. This is particularly true in the geosciences where specialized programs are extremely rare. Urban serving academic research institutions have a unique role and opportunity to partner with regional community college programs for undergraduate research early-on in student post-secondary educational experiences. Programs built for community college transfer students to urban serving undergraduate programs can serve to integrate students into major programs and help reduce transfer shock. The benefits of exploring research as an undergraduate scholar are numerous and include: building towards mastery of technical skills; developing problem-solving in a real-world environment; reading and digesting scientific literature; analyzing experimental and simulation data; working independently and as part of a team; developing a mentoring relationship with a research advisor; and building a sense of belonging and confidence in a scientific field. However, many undergraduate research internships are targeted towards junior-level STEM majors already engaged in upper-division coursework and considering graduate school which effectively excludes community college students from participating. The Center for Climate and Aerosol Research (CCAR) Research Experience for Undergraduate program at Portland State University serves to help build the future diverse research community. 10-week intern research experiences are paired with an expert faculty mentor are designed for students majoring in the natural/physical sciences but not necessarily with a background in climate or atmospheric science. Additional programmatic activities include: 1-week orientation and training using short courses, faculty research seminars, and hands-on group workshops; academic professional and career development workshops throughout summer; journal club activities; final presentations at end of summer CCAR symposium; opportunities for travel for student presentations at scientific conferences; and social activities. Open to all qualifying undergraduates, since 2014 the program recruits primarily from regional (Northwest) community colleges, rural schools, and Native American serving institutions; recruiting students who would be unlikely to be otherwise exposed to such opportunities at their home institution. Over the past 9 cohorts of REU interns (2014-2019), approximately one third of CCAR REU scholars are community colleges students. Here we present criteria employed for selection of REU scholars and an analysis of selection biases in a comparison of students from community colleges, 4-year colleges, and PhD granting universities. We further investigate differential outcomes in efficacy of the REU program using evaluation data to assess changes over the program including: knowledge, intrinsic motivation, extrinsic motivation, science identity, program satisfaction, and career aspirations. In this presentation, we present these findings along with supportive qualitative analyses and discuss their implications for community college students in undergraduate research programs in geosciences. 

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2. Near-Peer Mentoring in Data Science: A Plot for Mutual Growth

   https://doi.org/10.1080/00031305.2025.2550314  

   Sabatti, Chiara; Zhao, Qian (October 2025, The American Statistician)

   Universities have been expanding undergraduate data science programs. Involving graduate students in these new opportunities can foster their growth as data science educators. We describe two programs that employ a near-peer mentoring structure, in which graduate students mentor undergraduates, to (a) strengthen their teaching and mentoring skills and (b) provide research and learning experiences for undergraduates from diverse backgrounds. In the Data Science for Social Good program, undergraduate participants work in teams to tackle a data science project with social impact. Graduate mentors guide project work and provide just-in-time teaching and feedback. The Stanford Mentoring in Data Science course offers training in effective and inclusive mentorship strategies. In an experiential learning framework, enrolled graduate students are paired with undergraduate students from non-R1 schools, whom they mentor through weekly one-on-one remote meetings. In end-of-program surveys, mentors reported growth through both programs. Drawing from these experiences, we developed a self-paced mentor training guide, which engages teaching, mentoring and project management abilities. These initiatives and the shared materials can serve as prototypes of future programs that cultivate mutual growth of both undergraduate and graduate students in a high-touch, inclusive, and encouraging environment. 

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3. Work in Progress: Exploring Elements of a Mentoring and Professional Development Program in Engineering Education

   Anderson, C; Clarke, N; Mondisa, JL (June 2023, 2023 ASEE Annual Conference & Exposition)

   Undergraduate and graduate students need professional development skills to form expertise applicable to any job or future career. Mentoring is a way that students can learn how to engage in professional development. Likewise, students can learn professional development skills from mentors who they look to for expanding their knowledge base. To help address the needs of undergraduate and graduate students in engineering, the principal investigator developed and facilitated the Mentoring and Professional Development in Engineering Education (MPD-E2) Program. For this study, we examined the program’s general functions and elements using session notes and discussion of our observations. The guiding research question for this study is: what are some elements of a mentoring and professional development program that students value? In this work, we present details about the elements of the program that support student development and insights about potential future opportunities for these types of programs. 

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4. Online Student Engagement in Social Science Research Laboratories: Expert Advice on the Opportunities and Challenge

   https://doi.org/10.18833/spur/8/4/4  

   Ruth, Alissa; SturtzSreetharan, Cindi; Beresford, Melissa; Brewis, Alexandra; BurnSilver, Shauna B; Caseldin, Christopher R; Drummond_Otten, Caitlin; Estrada, Emir; Hruschka, Daniel J; Ilboudo_Nébié, Elisabeth; et al (January 2025, Scholarship and Practice of Undergraduate Research)

   Undergraduate research experiences (UREs) significantly enhance students’ critical thinking, problem-solving, and teamwork skills, and foster pathways to graduate studies. Social science laboratory-based undergraduate research experiences (LUREs) offer similar benefits with more impact on the understanding of the research process and influence career direction. As online undergraduate programs increase, research opportunities must adapt to incorporate otherwise excluded remote students. This study employs an expert panel method that collects insights from 22 experienced lab leaders around meeting the substantial challenges of mentoring online students in social science lab groups. Through thematic analysis, four key challenges and proposed solutions to enable remote undergraduate students to successfully engage in research labs were identified. These solutions offer practical guidance to improve inclusivity and accessibility for online learners. 

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5. A multi-tiered mentoring community approach to research experiences for local students from disadvantaged and underrepresented minority backgrounds

   https://doi.org/10.3389/feduc.2024.1366063  

   McKean, Thomas; Bates, LaShall; Bates, Gary; Wiersma-Mosley, Jacquelyn D; Wickramasinghe, S Ranil (June 2024, Frontiers in Education)

   A research and mentoring program was developed to provide local first-generation students, students returning to school after a professional experience, and underrepresented minority students resources and relationships to guide them toward a STEM degree from a four-year university. A multi-tiered mentoring community was formed including direct mentoring from graduate students and faculty advisors, peer mentoring among undergraduate students from different colleges and universities, and high school students to increase the accessibility of research opportunities for this demographic. Local students were recruited from Northwest Arkansas Community College and Upward Bound to combine community college and high school students in a novel manner. The programs were integrated whenever possible to emphasize peer mentoring, including mentoring lunches, research meetings, presentation sessions, conference presentations, and professional development mentoring sessions. ResultsOn the post-program survey, students indicated the community formed in the program supported their STEM identity development, provided them with quality relationships, and developed skills valuable to completion of a STEM degree. This identity development was further evidenced by the students presenting their work at a conference and obtaining additional research positions after the summer program ended. The post-program scores and continued efforts of different demographics of students to pursue STEM highlight the versatility of the multi-tiered mentoring community model to serve students from different ages, backgrounds, and demographics. 

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