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1. Place-Based Environmental Civic Science: Urban Students Using STEM for Public Good

   https://doi.org/10.3389/feduc.2021.693455  

   Gallay, Erin ; Flanagan, Constance ; Parker, Betsy ( August 2021 , Frontiers in Education)

   In the United States, Black and Latinx students are underrepresented in STEM courses and careers due to a dearth of culturally relevant opportunities, which in turn are connected to broader issues of social justice. Place-based environmental civic science offers potential for addressing these issues by enabling students to apply their STEM learning to mitigate local environmental problems. By civic science we refer to science in which all citizens, not just experts, engage for the public good. In this paper, we report on a study in which we followed middle-and high-school science and math classes in urban schools serving racial/ethnic minoritized students as they engaged in an innovative contextualized curriculum—a place-based civic science model in which students work with STEM community partners to address an environmental issue in their community. We draw from students’ open-ended reflections on what they learned from participating in place-based environmental civic science projects that could help their communities. Thematic analyses of reflections collected from 291 students point to beliefs in the usefulness of science to effect community change. Students articulated the science they learned or used in the project and how it could affect their community; they made references to real world applications of science in their project work and made links between STEM and civic contributions. In their own words, the majority of students noted ways that STEM was relevant to their communities now or in the future; in addition, a subset of students expressed changes in their thinking about how they personally could apply science to positively impact their communities and the ties between STEM and social justice. Analyses also point to a sense of confidence and purpose students gained from using STEM learning for their goals of community contribution. Results of this study suggest that focusing on local place as a foundation for students’ STEM learning and linking that learning to the civic contributions they can make, cultivates students’ perceptions of how they can use science to benefit their communities. Findings also suggest that engaging students in place-based civic science work provides effective foundations for nurturing STEM interest and addressing the underrepresentation of youth of color in STEM. 

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2. Minority Student Preparation for STEM PhD Study: Impact of NSF Bridge to the Doctorate Programming

   https://doi.org/10.46328/ijtes.v4i3.122  

   Preuss, Michael D. ; Merriweather, Samuel P. ; Walton, Shannon D. ; Butler-Purry, Karen L. ( June 2020 , International Journal of Technology in Education and Science)

   The Texas A&M University System (TAMUS) received funding from the National Science Foundation (NSF) for a Louis Stokes Alliance for Minority Participation (LSAMP) project in 1991 as one of the six initial awardees. As part of these efforts and upon reaching eligibility, the TAMUS LSAMP applied for and received additional funding to support a Bridge to the Doctorate (BTD) program. BTD programming provides financial, educational, and social support to incoming STEM master’s degree and PhD students for the first two years of their graduate study. BTD cohorts consist of up to 12 fellows who participate in a program of academic and professional development seminars and workshops. In project evaluation, annual interviews were conducted with the TAMUS BTD participants, the vast majority of whom were underrepresented minorities (92%). During the interviews, the BTD students were asked to discuss ten topics some of which addressed concerns specific to the implementation of the BTD project. This report considers answers provided in the five topic areas which have broader applicability: 1) the learning achieved by participants through participation in BTD, 2) the personal impact of participation in BTD, 3) the influence of BTD on informants’ educational goals, 4) the influence of BTD on informants’ career goals, and 5) barriers the BTD participants perceived to pursuing a PhD. Eighty project participants responded to the questions between 2009 and 2018. They were from eight distinct cohorts of BTD students and represented 32 different areas of STEM specialization. Qualitative analysis of their responses confirmed that students perceived the elements of the TAMUS BTD project to be efficacious and that there was a set of nine seminars from which participants consistently reported benefit. Additional findings were eight key areas in which learning was reported by participants, four areas in which the programming  had personal impact, five influences on educational goals,  nine impacts on career goals, and a detailed list of barriers graduate students who are underrepresented minorities (URM) perceive to pursuing a doctoral degree. The proven and easily replicated pattern of support programming, the demonstrated results of this programming, and insight into barriers URMs perceive to pursuing a STEM doctorate are immediately applicable to URM graduate student support at many institutions of higher education. 

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3. ACCESS in STEM: An S-STEM Project Supporting Economically Disadvantaged STEM-Interested Students in Their First Two Years

   Cline, E ; Abraham, M ; Alaei, S ; Dillon, H ; Dinglasan-Panlilio, J ; Heller, J ; Kmail, Z ; Lee, S ; Ma, E ; Nahmani, M ; et al ( June 2023 , ASEE annual conference exposition)

   Achieving Change in our Communities for Equity and Student Success (ACCESS) in STEM at the University of Washington Tacoma started as a Track 1 S-STEM program in 2018 and has supported 69 students to date. This year we received Track 2 funding and welcomed our fifth cohort to campus, with funding to support ~32 additional students through 2026. University of Washington Tacoma is an Asian American and Native American Pacific Islander-serving institution (AANAPISI), and we serve a high proportion of racial minority and first generation college students. Our ACCESS scholars are pursuing bachelor’s degrees in Mathematics, Environmental Science, Biomedical Sciences, Information Technology, Computer Science and Systems, Computer Engineering and Systems, Electrical Engineering, Mechanical Engineering, and Civil Engineering, with Computer Science and Engineering representing over 60% of ACCESS scholars to date. First-time college students and first-year transfer students receive full scholarships for their first two years, and partial scholarships for their third and fourth years. The project includes an optional Early Fall Math course to enhance entry into STEM majors, and participants are able to engage in a Research Experience or project-based Introduction to Engineering course in their first year. Coupled with individual faculty mentoring and an on-campus STEM living learning community, the quarterly Success in STEM seminar course helps scholars form a cohesive community through group mentoring, as well as develop a sense of belonging, identity, and empowerment to transform the culture of STEM. This program is distinguished by its focus on pre-STEM majors in their first and second years on campus, and includes mentor training for ~30-40 faculty in teaching and mentoring diverse student populations, thus impacting all students in our majors. Our goal was to evaluate the effectiveness of a program that focuses on the first two years of college and provides financial support, courses to introduce students to research and project-based engineering, and intensive mentoring in increasing retention and academic success for Computer Science and Engineering (CS+E) students, and whether this program helps to close equity gaps for CS+E students who are low socioeconomic status (SES), underrepresented minorities (URMs), female, and/or first generation in college (First Gen) students. We compared our student scholars to a comparison group of students who met eligibility requirements but did not participate in the program. Program scholars had higher first and second year retention, and had significantly higher GPAs. The pandemic resulted in significant social, emotional, and economic stresses for our program scholars, which may have heightened the impact of the ACCESS in STEM program. 

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4. The Billion Oyster Project and Curriculum and Community Enterprise for Restoration Science Curriculum Impact on Teacher Engagement

   https://doi.org/10.5430/jct.v11n4p53  

   Birney, Lauren B. ; Evans, Brian R. ; Kong, Joyce ; Solanki, Vibhakumari ; Mojica, Elmer-Rico ; Scharff, Christelle ( April 2022 , Journal of Curriculum and Teaching)

   The Billion Oyster Project and Curriculum and Community Enterprise for the Restoration of New York Harbor with New York City Public Schools (BOP-CCERS) program is a National Science Foundation (NSF) supported initiative and collaboration of multiple institutions and organizations led by Pace University. The NSF project, Innovative Technology Experiences for Students and Teachers (ITEST), had generated a large amount of data through engagement with teachers and students throughout New York City public schools. This article presents the second part to a large data collection study with focus on Underrepresented Minority (URM) student interest in STEM and engagement with teachers to support them in teaching science through experiential learning and lessons that connect science to the real world, particularly through science in the New York Harbor. The first component of the study focused on URM student interest in STEM. This second component of the study focuses on teacher engagement in the program, and what the researchers had learned in the process. Overall, teachers reported very favorable options on the impact of the BOP-CCERS activities as ways to generate student interest in STEM majors and careers. Teacher participants were generally positive about the amount of support and resources they received as members of the project, as well as the oyster-related knowledge and practices they learned to use with their own students in oyster field research. Data from the study provided evidence that the teacher activities were successful and met the project’s goals to provide support and resources for teachers to engage students in oyster restoration research. 

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5. NSF S-STEM Project Update: A Pathway to Completion for Pursuing Engineering and Engineering Technology Degrees

   https://doi.org/10.18260/1-2--35004  

   Bullington, Kim ; Tomovic, Cynthia ; Jovanovic, Vukica ; Dean, Anthony ; Landaeta, Rafael ( January 2021 , ASEE Virtual Annual Conference Content Access, Virtual On line)

   null (Ed.)

   This poster showcases the progress of students who are receiving scholarships from the National Science Foundation S-STEM project: A Pathway to Completion for Pursuing Engineering and Engineering Technology Degrees. Thus far, 20 academically high-achieving students who demonstrate financial need have participated in the project. Thirty-six scholarships have been awarded to date, in which a maximum of twelve scholarships are awarded per semester; some students have received scholarships multiple times. Students are from electrical engineering, computer engineering, mechanical engineering, civil engineering, civil engineering technology, and modeling and simulation majors. As part of this S-STEM project, students also receive academic support, mentorship related to the development of professional workforce skills, career search skills, and opportunities to participate in industry-related field trips. Role models, many of whom are practicing engineers with STEM degrees and are military veterans, serve as presenters and share their personal career pathways and answer students’ questions in the required one-hour weekly seminar. Although the students participating in this project meet the strenuous academic criteria set by the project (3.0/4.0), many of the students struggle financially, due to having expended their G.I. benefits, which can impede their academic performance and graduation. While many student success programs focus on freshman and sophomore students, what makes this project unique is its focus on enabling student success at the junior and senior years. This project provides a portfolio of different activities for the more mature student, e.g. financial aid through scholarships, community-based learning opportunities, and academic success strategies that enable stronger retention and student completion rates. Project activities are tailored to veterans and adult learners as this group of students is particularly vulnerable given their need to simultaneously juggle academic, family, and financial obligations. 

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