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1. The SEECRS Scholar Academy at Whatcom Community College: Three Cohorts of S-STEM Scholarships Later

   Babcock, M. J.; Vannelli, T. A.; Hanley, D.; Davishahl, E. (July 2021, 2021 ASEE Virtual Annual Conference)

   The STEM Excellence through Engagement in Collaboration, Research, and Scholarship (SEECRS) project at Whatcom Community College is in year four of a five-year NSF S-STEM funded program aiming to support academically talented students with demonstrated financial need in biology, chemistry, geology, computer science, engineering, and physics. This program offered financial, academic, and professional support to three two-year cohorts of students and is in the final year of the third and final cohort of the currently funded grant cycle. The SEECRS project aimed to utilize a STEM-specific guided pathways approach to strengthen recruitment, retention, and matriculation of STEM students at the community college level. Over the course of the program 39 individuals received scholarship support. The program supported scholarship recipients through participation in the SEECRS Scholars Academy, a multi-pronged approach to student support combining elements of community building, faculty mentorship, targeted advising activities, authentic science practice, and social activities. Key elements of the program are: a required two-credit course that emphasized STEM identity development, course-based undergraduate research experiences (CUREs) in Biology, Chemistry and Engineering courses, funded summer research opportunities, and paring of each scholar with a faculty mentor. This paper presents data from the first four years of the program including participant outcomes and feedback on their experiences. Results from project evaluation activities such as pre and post surveys, focus groups, exit interviews, and faculty surveys are also presented and analyzed to compare how gains reported by program participants regarding such attributes as their STEM identities and sense of belonging compare to responses from a control group of students who did not participate in the program. Preliminary identification of some program best practices will also be presented. 

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2. Board 33: The SEECRS Scholar Academy at Whatcom Community College: An S-STEM Scholarship Program

   Vannelli, T. A.; Davishahl, E.; Babcock, J. M.; Hanley, D.; Harri, E. (June 2018, ASEE annual conference & exposition proceedings)

   The STEM Excellence through Engagement in Collaboration, Research, and Scholarship (SEECRS) project at Whatcom Community College is a five-year program aiming to support academically talented students with demonstrated financial need in biology, chemistry, geology, computer science, engineering, and physics. This project is funded by an NSF S-STEM (Scholarships in Science, Technology, Engineering, and Mathematics) grant awarded in January 2017. Through an inclusive and long-range effort, the college identified a strong need for financial and comprehensive supports for STEM students. This project will offer financial, academic, and professional support to three two-year cohorts of students. The SEECRS project aims to utilize a STEM-specific guided pathways approach to strengthen recruitment, retention, and matriculation of STEM students at the community college level. Scholarship recipients will be supported through participation in the SEECRS Scholars Academy, a multi-pronged approach to student support combining elements of community building, faculty mentorship, targeted advising activities, authentic science practice, and social activities. Students are introduced to disciplines of interest through opportunities to engage in course-based undergraduate research experiences (CUREs) in Biology, Chemistry and Engineering courses, funded summer research opportunities, and seminars presented by STEM professionals. Communities of practice will be nurtured through the introduction of cohort building and faculty mentorship. Cohort development starts with a required two-credit course for all scholars that emphasizes STEM identity development, specifically focusing on identifying and coping with the ways non-dominant individuals (racial/ethnic minorities, non-male gender, lower socioeconomic status, first-generation, 2-year community college vs. 4-year institutions) are made to feel as outsiders in STEM. Each SEECRS scholar is paired with a faculty mentor who engages in ongoing mentor training. The project evaluation will determine the efficacy of the project activities in achieving their intended outcomes. Specifically, we will collect data to answer the research question: To what extent can a guided pathways approach provide a coordinated and supported STEM experience at Whatcom Community College that: (1) increases student success, and (2) positively shifts students’ STEM self-identity? The evaluation will employ a quasi-experimental research design, specifically a pretest-posttest design with a matched comparison group. Our first cohort of 14 students was selected over two application rounds (winter and summer 2017). We awarded ten full scholarships and four half-scholarships based on financial need data. Cohort demographics of note compared to institutional percentages are: females (64% vs. 57%), Hispanic (14% vs. 17%), African American (7% vs. 2%), white (79% vs. 66%), first generation college bound (43% vs. 37%). The cohort is comprised of six students interested in engineering, six in biology, and one each in geology and environmental sciences. With increased communication between the project team, our Financial Aid office, Entry and Advising, high school outreach, and the Title III grant-funded Achieve, Inspire, Motivate (AIM) Program, as well as a longer advertising time, we anticipate significantly enhancing our applicant pool for the next cohort. The results and lessons learned from our first year of implementation will be presented. 

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3. Board 33: The SEECRS Scholar Academy at Whatcom Community College: An S-STEM Scholarship Program

   Vannelli, T; Davishahl, E; Babcock, M; Hanley, D; Harri, E. (June 2018, ASEE Peer)

   The STEM Excellence through Engagement in Collaboration, Research, and Scholarship (SEECRS) project at Whatcom Community College is a five-year program aiming to support academically talented students with demonstrated financial need in biology, chemistry, geology, computer science, engineering, and physics. This project is funded by an NSF S-STEM (Scholarships in Science, Technology, Engineering, and Mathematics) grant awarded in January 2017. Through an inclusive and long-range effort, the college identified a strong need for financial and comprehensive supports for STEM students. This project will offer financial, academic, and professional support to three two-year cohorts of students. The SEECRS project aims to utilize a STEM-specific guided pathways approach to strengthen recruitment, retention, and matriculation of STEM students at the community college level. Scholarship recipients will be supported through participation in the SEECRS Scholars Academy, a multi-pronged approach to student support combining elements of community building, faculty mentorship, targeted advising activities, authentic science practice, and social activities. Students are introduced to disciplines of interest through opportunities to engage in course-based undergraduate research experiences (CUREs) in Biology, Chemistry and Engineering courses, funded summer research opportunities, and seminars presented by STEM professionals. Communities of practice will be nurtured through the introduction of cohort building and faculty mentorship. Cohort development starts with a required two-credit course for all scholars that emphasizes STEM identity development, specifically focusing on identifying and coping with the ways non-dominant individuals (racial/ethnic minorities, non-male gender, lower socioeconomic status, first-generation, 2-year community college vs. 4-year institutions) are made to feel as outsiders in STEM. Each SEECRS scholar is paired with a faculty mentor who engages in ongoing mentor training. The project evaluation will determine the efficacy of the project activities in achieving their intended outcomes. Specifically, we will collect data to answer the research question: To what extent can a guided pathways approach provide a coordinated and supported STEM experience at Whatcom Community College that: (1) increases student success, and (2) positively shifts students’ STEM self-identity? The evaluation will employ a quasi-experimental research design, specifically a pretest-posttest design with a matched comparison group. Our first cohort of 14 students was selected over two application rounds (winter and summer 2017). We awarded ten full scholarships and four half-scholarships based on financial need data. Cohort demographics of note compared to institutional percentages are: females (64% vs. 57%), Hispanic (14% vs. 17%), African American (7% vs. 2%), white (79% vs. 66%), first generation college bound (43% vs. 37%). The cohort is comprised of six students interested in engineering, six in biology, and one each in geology and environmental sciences. With increased communication between the project team, our Financial Aid office, Entry and Advising, high school outreach, and the Title III grant-funded Achieve, Inspire, Motivate (AIM) Program, as well as a longer advertising time, we anticipate significantly enhancing our applicant pool for the next cohort. The results and lessons learned from our first year of implementation will be presented. 

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4. Intentional Mentoring Networks for Minoritized Postdocs within a University System

   Aumiller, Jennifer G; Enekwe, Blessing O; Carter-Veale, Wendy Y; Cresiski, Robin H (November 2023, The Chronicle of Mentoring & Coaching)

   Trube, Mary B (Ed.)

   Postdoctoral scholars have traditionally received mentoring from a single mentor (creating a “dyad”), limiting the psychosocial support they receive, which is particularly challenging for minoritized scholars (Deanna et al., 2022; Ransdell, et al., 2021). The AGEP Promise Academy Alliance (APAA) (Cresiski et al., 2022) provides multiple mentors for postdoctoral fellows to expand their academic, professional, and support networks. This mixed-method case study involves postdoctoral fellows in the APAA faculty conversion program to identify the extent to which these multiple mentoring opportunities occurred and benefited the APAA fellows. Surveys administered to participants and their non research mentors elucidate the mentorship experience. The findings provide insights for implementing a multi-mentor network within a state university system. This study explores the broader ecosystem of mentorship and its influence on the advancement of minoritized postdocs in biomedical sciences, particularly those who may experience social isolation within their departments. It recognizes that mentorship extends beyond the formal research mentor-mentee relationship and encompasses a network of support that can positively impact the career trajectories and professional development of minoritized individuals. Scholars report benefits from having multiple mentoring opportunities within their institution, within the university system, and from external scholars through our mentors in residence program. “Just in time” mentoring on time-sensitive issues supplemented sustained mentoring. The inclusion of inter-institutional peers, administrators and faculty mentors enhanced this multiple mentor model. Minoritized postdoctoral scholars often have limited opportunities to receive mentorship (Yadav et al., 2020). Mentoring in dyads remains pervasive, though multiple mentors have been proposed (Deanna et al., 2022). We demonstrate that state university systems can be leveraged to provide a unique ecosystem of both short and sustained mentoring interactions that benefit minoritized postdocs without overburdening already over-worked faculty mentors. 

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5. Intentional Mentoring Networks for Minoritized Postdocs within a University System

   Aumiller, Jennifer G; Enekwe, Blessing O; Carter-Veale, Wendy Y; Cresiski, Robin H (November 2023, The Chronicle of Mentoring & Coaching)

   Postdoctoral scholars have traditionally received mentoring from a single mentor (creating a “dyad”), limiting the psychosocial support they receive, which is particularly challenging for minoritized scholars (Deanna et al., 2022; Ransdell, et al., 2021). The AGEP Promise Academy Alliance (APAA) (Cresiski et al., 2022) provides multiple mentors for postdoctoral fellows to expand their academic, professional, and support networks. This mixed-method case study involves postdoctoral fellows in the APAA faculty conversion program to identify the extent to which these multiple mentoring opportunities occurred and benefited the APAA fellows. Surveys administered to participants and their non research mentors elucidate the mentorship experience. The findings provide insights for implementing a multi-mentor network within a state university system. This study explores the broader ecosystem of mentorship and its influence on the advancement of minoritized postdocs in biomedical sciences, particularly those who may experience social isolation within their departments. It recognizes that mentorship extends beyond the formal research mentor-mentee relationship and encompasses a network of support that can positively impact the career trajectories and professional development of minoritized individuals. Scholars report benefits from having multiple mentoring opportunities within their institution, within the university system, and from external scholars through our mentors in residence program. “Just in time” mentoring on time-sensitive issues supplemented sustained mentoring. The inclusion of inter-institutional peers, administrators and faculty mentors enhanced this multiple mentor model. Minoritized postdoctoral scholars often have limited opportunities to receive mentorship (Yadav et al., 2020). Mentoring in dyads remains pervasive, though multiple mentors have been proposed (Deanna et al., 2022). We demonstrate that state university systems can be leveraged to provide a unique ecosystem of both short and sustained mentoring interactions that benefit minoritized postdocs without overburdening already over-worked faculty mentors. 

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