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1. Nascent Professional Identity Development in Freshman Architecture, Engineering, and Construction Women

   Ofori-Boadu, Andrea N. ; Ofori-Boadu, Victor ; Vanderpool, Jacob ; Deng, Dongyang ( June 2020 , ASEE annual conference exposition)

   Miller, Eva (Ed.)

   Nascent Professional Identity Development in Freshman Architecture, Engineering, and Construction (AEC) Women Increasing the persistence of talented women into male-dominated architecture, engineering, and construction (AEC) professions could reduce prevailing workforce shortages and improve gender diversity in AEC industry. Identity theorists advocate that professional identity development (PID) improves students’ persistence to become professionals. However, little empirical research exists to inform and guide AEC educators and professionals on AEC-PID in undergraduate AEC women. As the preliminary part of a larger nationwide and longitudinal research study investigating PID processes in undergraduate AEC women, the objective of this research is to examine the characteristics and nascent AEC-PID in 69 women enrolled in freshman AEC courses in five U.S. institutions. A purposive sampling approach ensures participants have a wide range of demographic characteristics. Data from a recruitment survey is analyzed using the NVivo qualitative data analysis software. Content and relational inductive open coding are conducted vertically for each participant and horizontally across different participants. Results indicate passion/interest, inherent abilities, significant others, benefits from industry, and desire to contribute to industry influence decisions to pursue AEC careers. With 52% of participants having science, technology, engineering, art, and math (STEAM) subject preferences, an in vivo code, Perfect Middle Ground, demonstrated the quest to combine STEM and visual art preferences in AEC career decisions. A participant noted that ‘this major (civil engineering) is the perfect middle ground because I can be creative, but still use my strong gift which happens to be math’. Girls with STEAM strengths and passion, particularly in math and fine art, are most likely to develop nascent AEC-PID. Beyond STEM pre-college programs, AEC educators should consider recruiting from sports, as well as visual and performing arts events for pre-college students. Participants’ positive views focus on the importance and significant societal impact of the AEC industry; while, negative views focus on the lack of gender and racial diversity. A combination of participants’ AEC professional experiences and views reveal four increasing levels of nascent AEC-PID which are categorized as the 4Ps: Plain, Passive, Progressive, and Proactive. As a guide to AEC education and professional communities, recommendations are made to increase the AEC-PID of women in each category. With the highest nascent AEC-PID, women in the Proactive category should serve as leaders in AEC classrooms and student organizations. Considering their AEC professional experience and enthusiasm, they should serve as peer mentors to other students, particularly AEC women. Furthermore, they should be given the opportunity to step into more complex roles during internships and encouraged to pursue co-op opportunities. Insights can guide more targeted recruitment, mentoring, preparation, and retention interventions that strengthen the persistence of the next generation of AEC women professionals. In the long term, this could reduce AEC workforce shortages, improve gender diversity, and foster the innovation and development of more gender friendly AEC products and services. 

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2. Geoscience Diversity Experiential Simulations (GeoDES) Workshop Report

   Houlton, Heather R. ; Chen, Jason ; Brown, Brentt ; Samuels, Dena ; Brinkworth, Carolyn ( January 2018 , American Geophysical Union)

   The geosciences have to solve increasingly complex problems relating to earth and society, as resources become limited, natural hazards and changes in climate impact larger communities, and as people interacting with Earth become more interconnected. However, the profession has dismally low representation from geoscientists who are from diverse racial, ethnic, or socioeconomic backgrounds, as well as women in leadership roles. This underrepresentation also includes individuals whose gender identity/expression is non-binary or gender-conforming, or those who have physical, cognitive, or emotional disabilities. This lack of diversity ultimately impacts our profession’s ability to produce our best science and work with the communities that we strive to protect and serve as stewards of the earth. As part of the NSF GOLD solicitation, we developed a project (Geoscience Diversity Experiential Simulations) to train 30 faculty and administrators to be “champions for diversity” and combat the hostile climates in geoscience departments. We hosted a 3-day workshop in November that used virtual simulations to give participants experience in building the skills to react to situations regarding bias, discrimination, microaggressions, or bullying often cited in geoscience culture. Participants interacted with avatars on screen, who responded to participants’ actions and choices, given certain scenarios. The scenarios are framed within a geoscience perspective; we integrated qualitative interview data from informants who experienced inequitable judgement, bias, discrimination, or harassment during their geoscience careers. The simulations gave learners a safe environment to practice and build self-efficacy in how to professionally and productively engage peers in difficult conversations. In addition, we obtained pre-workshop survey data about participants’ understanding regarding Diversity, Equity, and Inclusion practices, as well as observation data of participants’ responses during the simulations. Follow-up activities include monthly online meetings to engage problem solving and strategy-building skills for catalyzing institutional culture change within departments. This talk will specifically focus on workshop observations and preliminary reactions to the training. 

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3. LSAMP Bridges to the Doctorate: Preparing Future Minority Ph.D. Researchers through a Holistic Graduate Student Development Model

   Gloster, C. ; McCullough, M. ; Gowdy, G. ; Bigsby, S. ; Whittington, D. ; Johnson-Taylor, J. ( June 2023 , ASEE annual conference proceedings)

   The importance of diversifying the national STEM workforce is well-established in the literature (Marrongelle, 2018). This need extends to graduate education in the STEM fields, leading N.C. A&T to invest considerably in graduate education and wraparound support initiatives that help graduate students build science identity and competencies for careers both within and beyond academia. The NSF-funded Bridges to the Doctorate project will integrate culturally reflective mentoring and professional development specifically designed for Black, Latinx, and Native American Ph.D. students. This holistic, graduate student development model includes academic and professional skill-building for STEM careers alongside targeted support for pursuing fellowship opportunities. This paper discusses the planned mentoring approach for the aforementioned program and previous approaches to mentoring graduate students used at N.C. A&T. The BD Fellows program will support formal and informal mentoring relationships, as mentoring contributes towards retention in STEM graduate programs (Ragins, 2007). BD Fellows will participate in monthly one-hour seminars on how to identify, establish, and maintain informal mentoring relationships (Schwartz et al., 2018; Parnes et al., 2020), while STEM faculty will attend seminars on leveraging their social networks as vital sources of mentorship for the BD Fellows. Using a multi-pronged collaborative approach, this model integrates the evidence-based domains of self-efficacy (Laurencelle & Scanlan, 2018; Lent et al., 1994; Lent et al., 2008), science/research identity (Lent et al., 2015; Zimmerman, 2000), and social cognitive career theory (Lent et al., 2005; Lent and Brown, 2006) to recruit, enroll, and graduate LSAMP Fellows with STEM doctoral degrees. Guided by the theories, the following questions will be addressed: (1) To what extent is culturally reflective mentoring identified as a critical driver of B2D Fellows’ success? (2) To what extent are the program’s training components fostering increases in B2D Fellow’s self-efficacy, competency, and science identity? (3) What is the strength of the correlation between participation in the program training components, mentoring activities, and persistence in graduate school? (4) To what extent does the perceived importance of self-efficacy, competency, and science identity differ by race/ethnicity and gender? These data will be analyzed using both formative and summative assessments of program outcomes. Quantitative data will include pre-, post-, and exit surveys. Qualitative data will assess the impact of mentoring and program support. This study will be guided by established protocols that have been approved by the N.C. A&T IRB. It is anticipated that our BD Fellows program will significantly impact the retention and graduation rates of underrepresented minority STEM graduate students in our doctoral programs, thus producing a diverse workforce of STEM professionals. Materials from the program recruiting cycle, mentoring workshops, and the structured fellowship application process will be disseminated freely to other LSAMP and minority-serving institutions across the country. Strategies and outcomes of this project will be published in peer-reviewed journals and shared in conference proceedings. 

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4. Perceptions of Barriers to Career Progression for Academic Women in STEM

   https://doi.org/10.3390/soc11020027  

   O’Connell, Christine ; McKinnon, Merryn ( June 2021 , Societies)

   null (Ed.)

   Gender equity in academia is a long-standing struggle. Although common to all disciplines, the impacts of bias and stereotypes are particularly pronounced in science, technology, engineering and mathematics (STEM) disciplines. This paper explores what barriers exist for the career progression of women in academia in STEM disciplines in order to identify key issues and potential solutions. In particular, we were interested in how women perceive the barriers affecting their careers in comparison to their male colleagues. Fourteen focus groups with female-identifying academics showed that there were core barriers to career progression, which spanned countries, disciplines and career stages. Entrenched biases, stereotypes, double standards, bullying and harassment all negatively impact women’s confidence and sense of belonging. Women also face an additional biological burden, often being pushed to choose between having children or a career. Participants felt that their experiences as STEM academics were noticeably different to those of their male colleagues, where many of the commonly occurring barriers for women were simply non-issues for men. The results of this study indicate that some of these barriers can be overcome through networks, mentoring and allies. Addressing these barriers requires a reshaping of the gendered norms that currently limit progress to equity and inclusion. 

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5. Engaging STEM Transformational Experiences for Early Momentum (ESTEEM)

   Yahdi, Mohammed ; Bracey, Zoe Buck ( November 2019 , National Science Foundation -  Hispanic-Serving Institutions (HSI) Program Principal Investigator (PI) Meeting, November 2019.)

   Need/Motivation (e.g., goals, gaps in knowledge) The ESTEEM implemented a STEM building capacity project through students’ early access to a sustainable and innovative STEM Stepping Stones, called Micro-Internships (MI). The goal is to reap key benefits of a full-length internship and undergraduate research experiences in an abbreviated format, including access, success, degree completion, transfer, and recruiting and retaining more Latinx and underrepresented students into the STEM workforce. The MIs are designed with the goals to provide opportunities for students at a community college and HSI, with authentic STEM research and applied learning experiences (ALE), support for appropriate STEM pathway/career, preparation and confidence to succeed in STEM and engage in summer long REUs, and with improved outcomes. The MI projects are accessible early to more students and build momentum to better overcome critical obstacles to success. The MIs are shorter, flexibly scheduled throughout the year, easily accessible, and participation in multiple MI is encouraged. ESTEEM also establishes a sustainable and collaborative model, working with partners from BSCS Science Education, for MI’s mentor, training, compliance, and building capacity, with shared values and practices to maximize the improvement of student outcomes. New Knowledge (e.g., hypothesis, research questions) Research indicates that REU/internship experiences can be particularly powerful for students from Latinx and underrepresented groups in STEM. However, those experiences are difficult to access for many HSI-community college students (85% of our students hold off-campus jobs), and lack of confidence is a barrier for a majority of our students. The gap between those who can and those who cannot is the “internship access gap.” This project is at a central California Community College (CCC) and HSI, the only affordable post-secondary option in a region serving a historically underrepresented population in STEM, including 75% Hispanic, and 87% have not completed college. MI is designed to reduce inequalities inherent in the internship paradigm by providing access to professional and research skills for those underserved students. The MI has been designed to reduce barriers by offering: shorter duration (25 contact hours); flexible timing (one week to once a week over many weeks); open access/large group; and proximal location (on-campus). MI mentors participate in week-long summer workshops and ongoing monthly community of practice with the goal of co-constructing a shared vision, engaging in conversations about pedagogy and learning, and sustaining the MI program going forward. Approach (e.g., objectives/specific aims, research methodologies, and analysis) Research Question and Methodology: We want to know: How does participation in a micro-internship affect students’ interest and confidence to pursue STEM? We used a mixed-methods design triangulating quantitative Likert-style survey data with interpretive coding of open-responses to reveal themes in students’ motivations, attitudes toward STEM, and confidence. Participants: The study sampled students enrolled either part-time or full-time at the community college. Although each MI was classified within STEM, they were open to any interested student in any major. Demographically, participants self-identified as 70% Hispanic/Latinx, 13% Mixed-Race, and 42 female. Instrument: Student surveys were developed from two previously validated instruments that examine the impact of the MI intervention on student interest in STEM careers and pursuing internships/REUs. Also, the pre- and post (every e months to assess longitudinal outcomes) -surveys included relevant open response prompts. The surveys collected students’ demographics; interest, confidence, and motivation in pursuing a career in STEM; perceived obstacles; and past experiences with internships and MIs. 171 students responded to the pre-survey at the time of submission. Outcomes (e.g., preliminary findings, accomplishments to date) Because we just finished year 1, we lack at this time longitudinal data to reveal if student confidence is maintained over time and whether or not students are more likely to (i) enroll in more internships, (ii) transfer to a four-year university, or (iii) shorten the time it takes for degree attainment. For short term outcomes, students significantly Increased their confidence to continue pursuing opportunities to develop within the STEM pipeline, including full-length internships, completing STEM degrees, and applying for jobs in STEM. For example, using a 2-tailed t-test we compared means before and after the MI experience. 15 out of 16 questions that showed improvement in scores were related to student confidence to pursue STEM or perceived enjoyment of a STEM career. Finding from the free-response questions, showed that the majority of students reported enrolling in the MI to gain knowledge and experience. After the MI, 66% of students reported having gained valuable knowledge and experience, and 35% of students spoke about gaining confidence and/or momentum to pursue STEM as a career. Broader Impacts (e.g., the participation of underrepresented minorities in STEM; development of a diverse STEM workforce, enhanced infrastructure for research and education) The ESTEEM project has the potential for a transformational impact on STEM undergraduate education’s access and success for underrepresented and Latinx community college students, as well as for STEM capacity building at Hartnell College, a CCC and HSI, for students, faculty, professionals, and processes that foster research in STEM and education. Through sharing and transfer abilities of the ESTEEM model to similar institutions, the project has the potential to change the way students are served at an early and critical stage of their higher education experience at CCC, where one in every five community college student in the nation attends a CCC, over 67% of CCC students identify themselves with ethnic backgrounds that are not White, and 40 to 50% of University of California and California State University graduates in STEM started at a CCC, thus making it a key leverage point for recruiting and retaining a more diverse STEM workforce. 

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