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1. Course Based Undergraduate Research Demystifies and Democratizes inquiry-based research for undergraduate STEM students.

   Hoffbuhr, K; Mast, G; Brady, B; Blume, G; Elliser, C; Palmer, C (June 2023, Transforming Institution Conference)

   Undergraduate research experiences (UREs) have been shown to improve both persistence and graduation rates for women and students of color (Alquicira et al. 2022). Although these effects are observed broadly across higher education, they are especially pronounced in the context of the STEM fields (National Academies of Sciences, Engineering, and Medicine 2017). Although community colleges disproportionately enroll students who can most benefit from UREs, structural barriers make UREs rare at community colleges (Hewlett 2018). This change project, based at a mid-sized community college in Washington State, is part of the state’s Consortium for Undergraduate Research and Equity (CURE) and aspires to address the paucity of community college research opportunities in STEM through the design and implementation of a year-long research project for students enrolled in the primary course sequence for biology majors (approximately 50-100 annually). The project’s underlying theory of change is twofold. First, two local community partners and four science faculty use backward design to create a research project that embeds laboratory skills and learning outcomes in a year-long URE. Second, participating faculty replace the entire lab curriculum in the college’s three-course biology sequence with this applied year-long research project. Incorporating applied research into the college’s biology curriculum demystifies and democratizes inquiry-based research for first-generation, underrepresented, and/or academically underprepared students, who also may not have the financial privilege to participate in an unpaid internship that affords them such an experience. Preliminary findings from this change initiative will focus on project goals related to creating equitable access across a range of outcomes including demographic participation rates, the development of professional STEM research skills, and the extent to which UREs enhance a community college student’s sense of belonging among a larger scientific community. 

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2. Development of an Interdisciplinary, Project-based Scientific Research Course for STEM Departments

   https://doi.org/10.18260/1-2--34455  

   Yildiz, Faruk; Thompson, David E. (January 2020, Zone 1 Conference of the American Society for Engineering Education)

   The Project-Based Scientific Research is a new interdisciplinary course developed by the National Science Foundation (NSF - IUSE) funded STEM center at _______ State University. The implementation of this new course was one of the major three goals for this five year grant to strengthen the STEM undergraduate research community at ______ State University by helping undergraduates who are interested in hands-on and/or scientific research. The course is designed to introduce undergraduate junior and senior science, engineering technology and math students to the vibrant world of real research; to build foundational skills for research; to help STEM students meet potential mentors whose research labs they might join with the goal of gaining experimental research experience while on campus. On top of course content and requirements the following goals are aimed for the student and faculty mentors to strengthen the research community; (1) helping undergraduate students who are interested in research connect with faculty partners who are committed to mentoring undergraduates in research, (2) to guide students in reading through papers that introduce the type of research being carried out in a faculty partners lab, (3) to guide students in drafting a mini-review of 5 papers relevant to that research, (4) to guide students in identifying and writing up a research proposal which they will complete in the lab of the faculty partner. The learning objectives for the students in this course are summarized as; (a) by the end of this course, all students build a foundational understanding of the principles of STEM research through the exploration and discussion of important historical interdisciplinary projects; (b) interact with faculty researchers who perform projects across STEM disciplines; (c) be able to describe the similarities and differences between experimental and theoretical STEM research; (d) explore and present several possibilities for future research topics; (e) design and present a research prospectus, complete with a review of some of the relevant literature; (f) and be prepared to continue a research project with a chosen faculty mentor or mentors. First year, six academic departments out of eight participated this new course by offering a cross-listed course for their students under one major course taught by one of the PIs at the STEM Center. All the details such as challenges faced, outcomes, resources used, faculty involved, student and faculty feedback etc. for this course will be shared with academia in the paper. 

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3. 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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4. 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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5. Enhancing the Success of Minority STEM Students by Providing Financial, Academic, Social, and Cultural Capital

   Enriquez, A. G.; Lipe, C. B.; Price, B. (June 2017, ASEE annual conference & exposition)

   Research has shown that student achievement is influenced by their access to, or possession of, various forms of capital. These forms of capital include financial capital, academic capital (prior academic preparation and access to academic support services), cultural capital (the attitudes, knowledge, and behaviors related to education which students are exposed to by members of their family or community), and social capital (the resources students have access to as a result of being members of groups or networks). For community college students, many with high financial need and the first in their families to go to college (especially those from underrepresented minority groups), developing programs to increase access to these various forms of capital is critical to their success. This paper describes how a small federally designated Hispanic-serving community college has developed a scholarship program for financially needy community college students intending to transfer to a four-year institution to pursue a bachelor’s degree in a STEM field. Developed through a National Science Foundation Scholarships in Science, Technology, Engineering, and Mathematics (S-STEM) grant, the program involves a collaboration among STEM faculty, college staff, administrators, student organizations, and partners in industry, four-year institutions, local high schools, and professional organizations. In addition to providing financial support through the scholarships, student access to academic capital is increased through an intensive math review program, tutoring, study groups, supplemental instruction, and research internship opportunities. Access to cultural and social capital is increased by providing scholars with faculty mentors; engaging students with STEM faculty, university researchers, and industry professionals through field trips, summer internships, professional organizations, and student clubs; supporting student and faculty participation at professional conferences, and providing opportunities for students and their families to interact with faculty and staff. The paper details the development of the program, and its impact over the last five years on enhancing the success of STEM students as determined from data on student participation in various program activities, student attitudinal and self-efficacy surveys, and academic performance including persistence, retention, transfer and graduation. 

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