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1. Curando La Comunidad [Healing the Community]: Community-Centered STEM Identity

   https://doi.org/10.1177/15381927211069543  

   Herrera, Felisha; Kovats_Sánchez, Gabriela (January 2022, Journal of Hispanic Higher Education)

   This article highlights the role of community among Latina/o/x students pursuing degrees in science, technology, engineering, and mathematics (STEM) at 2- and 4-year Hispanic Serving Institutions (HSI). Community-based perspectives are often missing from traditional STEM disciplinary contexts; however, our Community-Centered STEM Identity model recognizes how Latinx students develop STEM identities by grounding, engaging, and bridging community. Implications for HSIs include cultivating community-based partnerships and perspectives as these are critical for the retention of Latinx students in STEM. 

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2. The (STEM)2 Network: a multi-institution, multidisciplinary approach to transforming undergraduate STEM education

   https://doi.org/10.1186/s40594-020-00262-z  

   Santangelo, Jessica; Hobbie, Lawrence; Lee, Jacqueline; Pullin, Michael; Villa-Cuesta, Eugenia; Hyslop, Alison (December 2021, International Journal of STEM Education)

   null (Ed.)

   Abstract Background Transforming the culture of STEM higher education to be more inclusive and help more students reach STEM careers is challenging. Herein, we describe a new model for STEM higher education transformation, the Sustainable, Transformative Engagement across a Multi-Institution/Multidisciplinary STEM, (STEM) 2 , “STEM-squared”, Network. The Network embraces a pathways model, as opposed to a pipeline model, to STEM career entry. It is founded upon three strong theoretical frameworks: Communities of Transformation, systems design for organizational change, and emergent outcomes for the diffusion of innovations in STEM education. Currently composed of five institutions—three private 4-year universities and two public community colleges—the Network capitalizes on the close geographic proximity and shared student demographics to effect change across the classroom, disciplinary, institutional, and inter-institutional levels. Results The (STEM) 2 Network has increased the extent to which participants feel empowered to be change agents for STEM higher education reform and has increased collaboration across disciplines and institutions. Participants were motivated to join the Network to improve STEM education, to improve the transfer student experience, to collaborate with colleagues across disciplines and institutions, and because they respected the leadership team. Participants continue to engage in the Network because of the collaborations created, opportunities for professional growth, opportunities to improve STEM education, and a sense that the Network is functioning as intended. Conclusion The goal to increase the number and diversity of people entering STEM careers is predicated on transforming the STEM higher education system to embrace a pathways model to a STEM career. The (STEM) 2 Network is achieving this by empowering faculty to transform the system from the inside. While the systemic transformation of STEM higher education is challenging, the (STEM) 2 Network directly addresses those challenges by bridging disciplinary and institutional silos and leveraging the reward structure of the current system to support faculty as they work to transform this very system. 

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3. The Emerging Impact of Community College Hispanic-Serving Institutions (2-year HSIs) in Educating Technicians in Advanced Technologies – Defining the Opportunities and Addressing the Challenges

   Pickering, Cynthia; Craft, Elaine; VanIngen-Dunn, Caroline (July 2019, ASEE annual conference)

   To remain competitive in the global economy, the United States needs skilled technical workers in occupations requiring a high level of domain-specific technical knowledge to meet the country’s anticipated shortage of 5 million technically-credentialed workers. The changing demographics of the country are of increasing importance to addressing this workforce challenge. According to federal data, half the students earning a certificate in 2016-17 received credentials from community colleges where the percent enrollment of Latinx (a gender-neutral term referencing Latin American cultural or racial identity) students (56%) exceeds that of other post-secondary sectors. If this enrollment rate persists, then by 2050 over 25% of all students enrolled in higher education will be Latinx. Hispanic Serving Institutions (HSIs) are essential points of access as they enroll 64% of all Latinx college students, and nearly 50% of all HSIs are 2-year institutions. Census estimates predict Latinxs are the fastest-growing segment reaching 30% of the U.S. population while becoming the youngest group comprising 33.5% of those under 18 years by 2060. The demand for skilled workers in STEM fields will be met when workers reflect the diversity of the population, therefore more students—of all ages and backgrounds—must be brought into community colleges and supported through graduation: a central focus of community colleges everywhere. While Latinx students of color are as likely as white students to major in STEM, their completion numbers drop dramatically: Latinx students often have distinct needs that evolved from a history of discrimination in the educational system. HSI ATE Hub is a three-year collaborative research project funded by the National Science Foundation Advanced Technological Education Program (NSF ATE) being implemented by Florence Darlington Technical College and Science Foundation Arizona Center for STEM at Arizona State University to address the imperative that 2-year Hispanic Serving Institutions (HSIs) develop and improve engineering technology and related technician education programs in a way that is culturally inclusive. Interventions focus on strengthening grant-writing skills among CC HSIs to fund advancements in technician education and connecting 2-year HSIs with resources for faculty development and program improvement. A mixed methods approach will explore the following research questions: 1) What are the unique barriers and challenges for 2-year HSIs related to STEM program development and grant-writing endeavors? 2) How do we build capacity at 2-year HSIs to address these barriers and challenges? 3) How do mentoring efforts/styles need to differ? 4) How do existing ATE resources need to be augmented to better serve 2-year HSIs? 5) How do proposal submission and success rates compare for 2-year HSIs that have gone through the KS STEM planning process but not M-C, through the M-C cohort mentoring process but not KS, and through both interventions? The project will identify HSI-relevant resources, augment existing ATE resources, and create new ones to support 2-year HSI faculty as potential ATE grantees. To address the distinct needs of Latinx students in STEM, resources representing best practices and frameworks for cultural inclusivity, as well as faculty development will be included. Throughout, the community-based tradition of the ATE Program is being fostered with particular emphasis on forming, nurturing, and serving participating 2-year HSIs. This paper will discuss the need, baseline data, and early results for the three-year program, setting the stage for a series of annual papers that report new findings. 

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4. The Emerging Impact of Community College Hispanic-Serving Institutions (2-year HSIs) in Educating Technicians in Advanced Technologies – Defining the Opportunities and Addressing the Challenges

   Pickering, Cynthia; Craft, Elaine; VanIngen-Dunn, Caroline (January 2019, ASEE annual conference)

   To remain competitive in the global economy, the United States needs skilled technical workers in occupations requiring a high level of domain-specific technical knowledge to meet the country’s anticipated shortage of 5 million technically-credentialed workers. The changing demographics of the country are of increasing importance to addressing this workforce challenge. According to federal data, half the students earning a certificate in 2016-17 received credentials from community colleges where the percent enrollment of Latinx (a gender-neutral term referencing Latin American cultural or racial identity) students (56%) exceeds that of other post-secondary sectors. If this enrollment rate persists, then by 2050 over 25% of all students enrolled in higher education will be Latinx. Hispanic Serving Institutions (HSIs) are essential points of access as they enroll 64% of all Latinx college students, and nearly 50% of all HSIs are 2-year institutions. Census estimates predict Latinxs are the fastest-growing segment reaching 30% of the U.S. population while becoming the youngest group comprising 33.5% of those under 18 years by 2060. The demand for skilled workers in STEM fields will be met when workers reflect the diversity of the population, therefore more students—of all ages and backgrounds—must be brought into community colleges and supported through graduation: a central focus of community colleges everywhere. While Latinx students of color are as likely as white students to major in STEM, their completion numbers drop dramatically: Latinx students often have distinct needs that evolved from a history of discrimination in the educational system. HSI ATE Hub is a three-year collaborative research project funded by the National Science Foundation Advanced Technological Education Program (NSF ATE) being implemented by Florence Darlington Technical College and Science Foundation Arizona Center for STEM at Arizona State University to address the imperative that 2-year Hispanic Serving Institutions (HSIs) develop and improve engineering technology and related technician education programs in a way that is culturally inclusive. Interventions focus on strengthening grant-writing skills among CC HSIs to fund advancements in technician education and connecting 2-year HSIs with resources for faculty development and program improvement. A mixed methods approach will explore the following research questions: 1) What are the unique barriers and challenges for 2-year HSIs related to STEM program development and grant-writing endeavors? 2) How do we build capacity at 2-year HSIs to address these barriers and challenges? 3) How do mentoring efforts/styles need to differ? 4) How do existing ATE resources need to be augmented to better serve 2-year HSIs? 5) How do proposal submission and success rates compare for 2-year HSIs that have gone through the KS STEM planning process but not M-C, through the M-C cohort mentoring process but not KS, and through both interventions? The project will identify HSI-relevant resources, augment existing ATE resources, and create new ones to support 2-year HSI faculty as potential ATE grantees. To address the distinct needs of Latinx students in STEM, resources representing best practices and frameworks for cultural inclusivity, as well as faculty development will be included. Throughout, the community-based tradition of the ATE Program is being fostered with particular emphasis on forming, nurturing, and serving participating 2-year HSIs. This paper will discuss the need, baseline data, and early results for the three-year program, setting the stage for a series of annual papers that report new findings. 

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5. Lessons from Diverse Women in STEM: Acknowledging Institutional Challenges and Empowering Agency Towards STEM persistence

   Schuyler, S.; Briseño, J.; Natarajan, M.; Sista, A.; Wilkins-Yel, K.G.; Arnold, A.; Bernstein, B.; Randall, A.K (January 2021, Proceedings of the 2021 Collaborative Network for Engineering and Computing Diversity (CoNECD) Conference)

   null (Ed.)

   Women pursuing graduate studies in STEM fields often face challenges, such as implicit and explicit messages (e.g., microaggressions, stereotyping) that communicate their lack of belonging in STEM, the delegitimization of their skills and expertise, and instances where both their voice and physical presence are ignored. These gendered, and in the case of Women of Color (WoC), racialized experiences, result in additional stress that negatively influences women’s efforts to persist and succeed in STEM fields. This study, which is part of a larger NSF-funded project within the CareerWISE (CW) research program, highlighted the voices of white women and WoC in STEM doctoral programs with the goal of identifying factors that promote their STEM persistence. A total of 33 women in STEM doctoral programs across the United States were interviewed. Participants were asked to provide recommendations for fellow women in STEM who are considering leaving their programs to facilitate their persistence amidst challenges they might face. The findings were summarized into four broad themes: 1) seek interpersonal support, 2) prioritize mental health and wellbeing, 3) affirm and encourage one’s belongingness in STEM, and 4) explore different academic options if needed. Findings led to important implications for current and future graduate students, departments, and institutions (i.e., building community, fostering a welcoming environment, reducing barriers to persistence). 

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