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1. Education Racial and Gender Disparities in COVID-19 Worry, Stress, and Food Insecurities across Undergraduate Biology Students at a Southeastern University

   https://doi.org/10.1128/jmbe.00224-21  

   Correia, Kelly M.; Bierma, Shannon R.; Houston, Sophia D.; Nelson, Madison T.; Pannu, Khushwant S.; Tirman, Chase M.; Cannon, Randi L.; Clance, Lauren R.; Canterbury, Dawn N.; Google, Angela N.; et al (April 2022, Journal of Microbiology & Biology Education)

   Goller, Carlos C. (Ed.)

   ABSTRACT The global spread of the novel coronavirus first reported in December 2019 led to drastic changes in the social and economic dynamics of everyday life. Nationwide, racial, gender, and geographic disparities in symptom severity, mortality, and access to health care evolved, which impacted stress and anxiety surrounding COVID-19. On university campuses, drastic shifts in learning environments occurred as universities shifted to remote instruction, which further impacted student mental health and anxiety. Our study aimed to understand how students from diverse backgrounds differ in their worry and stress surrounding COVID-19 upon return to hybrid or in-person classes during the Fall of 2020. Specifically, we addressed the differences in COVID-19 worry, stress response, and COVID-19-related food insecurity related to race/ethnicity (Indigenous American, Asian/Asian American, black/African American, Latinx/Hispanic, white, or multiple races), gender (male, female, and gender expressive), and geographic origin (ranging from rural to large metropolitan areas) of undergraduate students attending a regional-serving R2 university, in the southeastern U.S. Overall, we found significance in worry, food insecurity, and stress responses with females and gender expressive individuals, along with Hispanic/Latinx, Asian/Asian American, and black/African American students. Additionally, students from large urban areas were more worried about contracting the virus compared to students from rural locations. However, we found fewer differences in self-reported COVID-related stress responses within these students. Our findings can highlight the disparities among students’ worry based on gender, racial differences, and geographic origins, with potential implications for mental health of university students from diverse backgrounds. Our results support the inclusion of diverse voices in university decisioning making around the transition through the COVID-19 pandemic. 

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2. Effect of Organizational Change on Student Retention and Engagement

   https://doi.org/10.18260/1-2--47217  

   D'souza, Nandika; Siller, Hector; Ro, Hyun Kyoung; Huffman, Debbie (June 2024, ASEE Conferences)

   Engineering and computer science disciplines remain substantially under-represented in Hispanic, African American and women students. Relative to the population demographics reflecting approximately 50% women, 60% white non Hispanic/Latinx, 13% African American, 19% Hispanic and 1.3% Native American, engineering demographics reflect underrepresentation. While recent trends reflect significant gains, women remain under-represented in engineering. Based on the ASEE EDMS system, in 2022, women earned 25% of engineering degrees and under-represented students (URM=African American, Hispanic, native American and Pacific islanders) earned 21% of degrees. From a first time in college enrollment in a university perspective, URM freshmen accounted for 27% of all freshmen enrollment. Within that the African American student population was at 6% and Hispanic at 13%. The gap between freshmen enrollment at the Universities and higher percentages at graduation reflects the trend that URM students are entering the University experience beyond the freshmen level making the transfer student engagement and retention a key need. In this paper we explore systematic organizational change in communicating the degree pathways to a graduation in engineering and engaging students sequentially from enrollment through graduation. We explore these in the prepandemic, post-pandemic, new HSI designation macro changes in the University. The results indicate that students are benefitted from having administrators, faculty and full-time staff work synergistically to communicate information that can be accessed by students without needing an appointment/commute and to grow a students pathway to lifelong learning through research is best enabled through student-student direct engagement. 

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3. Exploration of Intersectionality and Computer Science Demographics: Understanding the Historical Context of Shifts in Participation

   https://doi.org/10.1145/3445985  

   Lunn, Stephanie; Zahedi, Leila; Ross, Monique; Ohland, Matthew (March 2021, ACM Transactions on Computing Education)

   null (Ed.)

   Although computing occupations have some of the greatest projected growth rates, there remains a deficit of graduates in these fields. The struggle to engage enough students to meet demands is particularly pronounced for groups already underrepresented in computing, specifically, individuals that self-identify as a woman, or as Black, Hispanic/Latinx, or Native American. Prior studies have begun to examine issues surrounding engagement and retention, but more understanding is needed to close the gap, and to broaden participation. In this research, we provide quantitative evidence from the Multiple-Institution Database for Investigating Engineering Longitudinal Development—a longitudinal, multi-institutional database to describe participation trends of marginalized groups in computer science. Using descriptive statistics, we present the enrollment and graduation rates for those situated at the intersection of race/ethnicity and gender between 1987 and 2018. In this work, we observed periods of significant flux for Black men and women, and White women in particular, and consistently low participation of Hispanic/Latinx and Native American men and women, and Asian women. To provide framing for the evident peaks and valleys in participation, we applied historical context analysis to describe the political, economic, and social factors and events that may have impacted each group. These results put a spotlight on populations largely overlooked in statistical work and have the potential to inform educators, administrators, and researchers about how enrollments and graduation rates have changed over time in computing fields. In addition, they offer insight into potential causes for the vicissitudes, to encourage more equal access for all students going forward. 

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4. Women and URM Experiences in Makerspaces

   https://doi.org/10.18260/1-2--57467  

   De_Rosa, Alexander; Buckley, Jenni; Trauth, Amy (June 2025, ASEE Conferences)

   Academic makerspaces represent an ideal opportunity to present engineering students with active, experiential learning opportunities that reinforce theoretical concepts through conceptual design and prototyping. When appropriately supported, experiential learning in makerspaces has the capacity to drive development of technical skills and positive self-efficacy among novice engineers. However, research suggests that students who identify as part of historically underrepresented groups (i.e. those who are not White and male) can experience makerspaces in ways that marginalize their success. Thus, care must be taken in makerspace design and operation to create an environment that has a positive impact on the success of all students. In this study, we consider the perceptions and experiences of women and underrepresented racial/ethnic minorities (URMs) in an academic makerspace at one large, research intensive institution. We surveyed 256 undergraduate mechanical engineering students to compare and contrast their self-efficacy, their perceptions of makerspace support, and their peer-to-peer interactions. We found that student self-efficacy for conceptual design and prototyping did not differ by race or gender. However, females reported they were more likely to have a positive experience in the makerspace when supported by a teaching assistant who was also female. Students who identified as URM were significantly more likely to report discomfort in working with peers in the makerspace. We anticipate the outcomes of this study will provide implications for faculty and staff makerspaces at other postsecondary institutions who aim to build an inclusive and accessible learning environment for all students. 

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5. Long-Term Outcomes of RET Programs on Female and Minority Student High School Graduation Rates and Undergraduate STEM Major Rates (Fundamental)

   Nichol, C.; Crawford, C. A.; Barr, C.; Cerda, I. (January 2021, ASEE Annual Conference proceedings)

   null (Ed.)

   Research Experience for Teachers (RET) programs are National Science Foundation (NSF) funded programs designed to provide K- 12 Science, Technology, Engineering, and Mathematics (STEM) teachers with immersive, hands-on research experiences at Universities around the country. The NSF RET in nanotechnology encourages teachers to translate cutting-edge research into culturally relevant Project-Based Learning (PjBL) and engineering curriculum. Traditionally, the evaluation of RET programs focuses on the growth and development of teacher self-efficacy, engineering content knowledge gains, or classroom implementation of developed curriculum materials. However, reported methods for evaluating the impact of RETs on their female, minority student populations' high school graduation and undergraduate STEM major rates are limited. This study's objective was to compare RET high school student graduation rates and undergraduate STEM major rates across gender, race, and ethnicity to a comparison sample to determine the RET program's long-term impact on students' likelihood of pursuing STEM careers. The approach of collecting and analyzing the Texas Education Research Center Database (EdRC) data is a novel methodology for assessing RET programs' effectiveness on students. The EdRC is a repository of K-12 student data from the Texas Education Agency (TEA) and Higher Education data from the Texas Higher Education Coordinating Board (THECB). This joint database contains demographic, course registration, graduation, standardized testing, and college major, among others, for all students that attended a K-12 public school in Texas and any college in Texas, public or private. The RET program participants at Rice University (2010 – 2018) taught numerous students, a sample size of 11,240 students. A propensity score matching generated the student comparison group within the database. Students' school campus, gender, race/ethnic status, and English proficiency status were applied to produce a graduation comparison sample size of 11,240 students of Non-RET participants. Linking the TEA database to the THECB database resulted in college STEM participants and comparison sample sizes of 4,029 students. The project team conducted a logistic regression using RET status to predict high school graduation rates as a whole and by individual variables: gender, Asian American, Black, Caucasian, and Latinx students. All models were significant at p less than 0.05, with models in favor of students RET teachers. The project team conducted a logistic regression using RET status to predict student STEM undergraduate major rates as a whole and by individual variables: Gender, Asian American, Black, Caucasian, and Latinx students. African American and Caucasian models were significant at p less than 0.05; Gender, Asian American, and Latinx models were marginally significant (0.05 less than p greater than 0.1), where RET students had higher STEM major rates than matched controls. The findings demonstrate that RET programs have a long-term positive impact on the students' high school graduation rates and undergraduate STEM major rates. As teachers who participate in the RET programs are more likely to conduct courses using PjBL strategies and incorporate real-world engineering practices, female and minority students are more likely to benefit from these practices and seek careers utilizing these skills. 

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