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1. Building Consensus for Integrated STEM and Social-Emotional Development: From Convening to Implementation

   Allen, Patricia J.; Noam, Gil G. (May 2023, Connected Science Learning)

   Roberts, K. (Ed.)

   Uniting social, emotional, and academic development is necessary to ensure all young people develop the thinking and feeling skills needed to succeed in a STEM-driven future. Scientific discoveries and technological innovations are transforming society, and while they may improve our quality of life, they also introduce social and ethical quandaries that young people must be equipped to navigate. For example, there are both opportunities and risks to using artificial intelligence, genetic engineering, and renewable/alternative energy sources. Although the public discourse supports bringing STEM and social-emotional development (SED) together, and demands evaluation and measurement of outcomes, integrated STEM+SED in educational research, practice, and policy is largely abstract and aspirational. Given that jobs of the future will be STEM-focused and will require SED/21st-century skills—such as working in diverse teams, solving complex problems, and persevering through failures—it will be important to implement and measure STEM+SED together at the teaching and learning levels. To move the field toward meaningful integration of STEM+SED practices and skills, we convened a National Science Foundation (NSF)–funded virtual conference: Mapping Connections Between STEM and Social-Emotional Development (SED) in Out-of-School Time (OST) Programs. This conference—attended by 49 stakeholders from STEM and SED research, policy, and practice—focused on identifying the measurable STEM+SED qualities and skills important for youth success and prioritized by both fields. From this conference emerged consensus for a common frame to explore STEM+SED integration—focusing on Active Engagement, Agency, Belonging, and Reflection—which we and our partners are using to generate knowledge, resources, and tools to advance the integration of STEM+SED in formal and informal learning environments. The preliminary findings and recommendations from this conference provide a starting point for areas to prioritize, explore, and set the stage for more rigorous, relevant, andhigh-quality research on integrated STEM+SED. We begin by telling the story of our conference, including our initial focus on OST, our choice of the term “SED,” and our approach. We then show how discoveries during and after the conference push this essential STEM+SED agenda forward in research and practice. We conclude with recommendations by and for researchers, practitioners, and policymakers to promote synergy between the fields of STEM and SED across all learning environments. 

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2. Pipeline Schmipeline: A New Survey to Examine Youth Pathways in Science

   https://doi.org/10.1177/01614681241263431  

   MacPherson, Anna; Chaffee, Rachel; Bjorklund, Peter; Daly, Alan J; Adams, Jennifer D; Gupta, Preeti; Hammerness, Karen (June 2024, Teachers College Record: The Voice of Scholarship in Education)

   Lesko, Nancy (Ed.)

   Increasing diversity in science, technology, engineering, and math (STEM) and STEM-related degrees and professions is a national priority. Research on students’ pathways in STEM may contribute to our understanding of how to change institutions to achieve diversity; however, until recently, the dominant narrative invoked a “pipeline” metaphor. In this work, we challenge the pipeline metaphor by interrogating what is meant by a “STEM” pathway, measuring constructs not typically measured in STEM pipeline research, endeavoring to make our measures intersectional, and imagining alternative outcomes in addition to “staying in STEM.” We have been following students who completed an out-of-school mentored science research program since 2017. Three hundred fifty-eight participants responded to an alumni survey designed to collect data about their location along their pathway, constructs related to the pursuit of a pathway, and demographic information. Here, we describe the characteristics of this sample and initial findings about the new constructs we measured. By measuring constructs not typically measured in pathways research and designing items and scales using an intersectional approach, we challenge the problematic pipeline metaphor that dominates the STEM persistence literature. 

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3. Attending to STEM education in servingness at Hispanic-serving institutions: a systematic review of more than a decade of scholarship

   https://doi.org/10.1186/s40594-024-00489-0  

   Ro, Hyun_Kyoung; Aguilar-Smith, Stephanie; Anderson, Shirley_Yang; Rodriguez, Tricia; Ramon, Elizabeth_J; Javier, Damaris (July 2024, International Journal of STEM Education)

   Abstract Background, context, and purpose of the studyEnrolling over 60% of all Latinx undergraduate students, Hispanic-serving institutions (HSIs) are poised to play a critical role in diversifying and strengthening Science, Technology, Engineering, and Mathematics (STEM) education and the STEM workforce. However, how HSIs serve STEM students is not well understood. Accordingly, guided by Garcia et al. (Review of Educational Research 89:5–745, 2019) multidimensional servingness framework, we conducted a systematic review of the research on STEM education within the HSI context. By attending to STEM education in conversations around how HSIs may serve Latinx students and their campus communities, our ultimate aim is to improve STEM education particularly at HSIs and advance STEM servingness more broadly. Results, main findingsThrough our systematic review of STEM education research at HSIs, we identified (under)studied components of servingness and gaps within this literature base. Specifically, among the 128 qualifying articles, nearly two-thirds focused on student outcomes but overlooked institutions’ organizational context, raising questions about the effect(iveness) of the studied interventions. Additionally, we identified three thematic gaps in this literature: ghosting the HSI context (i.e., relying on HSIs as research sites without considering the unique HSI context); ghosting Latinx culture (i.e., decentering Latinx students and the Latinx community’s sociocultural aspects and assets), and ghosting people and places (i.e., under-examining certain student populations like Latino men in STEM and places like Hispanic-serving community colleges). Ultimately, our study extends the field’s understanding of servingness by attending to STEM education within the context of HSI institutions. Conclusions, brief summary, and potential implicationsBy systematically reviewing studies on STEM education at HSIs, we identified (under)studied components of servingness and patterned gaps within this literature. In doing so, we highlight opportunities to advance STEM servingness at HSIs through future research, policy, and practice. Collectively, these avenues hold the promise of improving STEM education and diversifying the STEM workforce. 

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4. Promoting Academic Success of Economically Disadvantaged, STEM-Interested, First- and Second-Year Undergraduate Students via the ACCESS in STEM Program at University of Washington Tacoma

   Cline, E.T. (July 2021, Understanding Interventions Journal)

   We are facing a national challenge of low retention rates for STEM-interested students. At the University of Washington Tacoma (UWT), a public, predominantly undergraduate, minority-serving institution (Asian-American, Native American, Pacific Islander, AANAPISI), only 28% of high achieving (high school GPA>3.0), STEM-interested at entry, Pell-eligible, first-time-in-college (FTIC) students undergraduates have entered a STEM major by the beginning of their 2nd yr, and the proportion is significantly lower for PEERs (persons excluded from STEM due to ethnicity or race [Asai, 2020]) at only 16%, representing a substantial equity gap. To address this problem, we developed the Achieving Change in our Communities for Equity and Student Success (ACCESS) in STEM Program. Supported by an NSF S-STEM grant since 2018, the program supports low-income, STEM-interested students by providing focused mentoring, a living learning community, a course-based research experience in their first year, and scholarships in their first two years of college. Based on the Student Persistence model of Graham et al. (2013), we hypothesized that these interventions would increase retention, academic performance, and progress into and through STEM majors. Our approach builds upon existing research demonstrating the importance of early research experiences (Thiry et al., 2012) and intensive mentoring and community building, particularly in the context of AANAPISI institutions (Nguyen et al., 2018). 

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5. "A VOICE TO TALK ABOUT IT": COSMETOLOGISTS AS STEM EXPERTS IN EDUCATIONAL TECHNOLOGY DESIGN AND IMPLEMENTATION

   Lachney, Michael; Babbitt, William; Bennett, Audrey; Eglash, Ron (July 2019, EURODL)

   In the U.S. there are steady efforts by governmental and philanthropic organizations to increase the representation of students of colour in science, technology, engineering, and mathematics (STEM). After years of mixed results, researchers and educators have started to question one size fits all notions of broadening participation. An increasing number of projects are challenging universalist assumptions by enrolling the expertise of culturally situated communities of practice in STEM lessons and the educational technologies that support them. While this research shows promising results for improving young people’s interest and performance in STEM, there has been little research on how these lessons and technologies might also benefit the communities whose expertise were originally enrolled. This paper details the design of educational technologies that bridge STEM and African American cosmetology. We report on a mixed-methods research project, conducted with a group of predominantly African American cosmetologists. Qualitative and quantitative data were collected to study their attitudes toward STEM before and after working with the technologies. Our results suggest positive changes in the cosmetologists’ attitudes. We end with a critical discussion about respecting the knowledge systems of underrepresented communities of practice in educational technology research and development. 

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