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1. Adapting the CACAO model to support higher education STEM teaching reform

   https://doi.org/10.1186/s40594-021-00325-9  

   Viskupic, Karen ; Earl, Brittnee ; Shadle, Susan E. ( January 2022 , International Journal of STEM Education)

   Efforts to achieve improved student outcomes in STEM are critically reliant on the success of reform efforts associated with teaching and learning. Reform efforts include the transformation of course-based practices, community values, and the institutional policies and structures associated with teaching and learning in higher education. Enacting change is a complex process that can be guided by change theories that describe how and why a desired change takes place. We analyzed the utility of a theory-based change model applied in a higher education setting. Our results provide guidance for change efforts at other institutions.

   Use of the CACAO model to guide the transformation of STEM instruction at a large public university resulted in changes to faculty teaching practices and department culture consistent with the vision defined for the project. Such changes varied across STEM departments in accordance with the emergent nature of project activities at the department level. Our application of the CACAO model demonstrates the importance of (1) creating a vision statement (statement of desired change or end-state); (2) attending to different levels of the organization (e.g., individuals, departments, and colleges); (3) working with change agents who are situated to be effective at different organizational levels; and (4) employing strategies to meet the needs and interests of faculty at different stages of adoption with respect to the desired change.

   Our work, which demonstrates the utility of the CACAO model for change and captures its key elements in a matrix, provides a potential foundation for others considering how to frame and study change efforts. It reinforces the value of using change theories to inform change efforts and creates a structure that others can build on and modify, either by applying our CACAO matrix in their own setting or by using the matrix to identify elements that connect to other change theories. We contribute to the growing body of literature which seeks to understand how change theories can be useful and generalizable beyond a single project.

    

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2. Sustaining Student Engagement and Equity in Computing Departments During the COVID-19 Pandemic

   https://doi.org/10.1145/3408877.3432381  

   Thiry, Heather ; Hug, Sarah T. ( March 2021 , SIGCSE '21: Proceedings of the 52nd ACM Technical Symposium on Computer Science Education)

   null (Ed.)

   In spring of 2020, almost all campuses across the United States abruptly closed and shifted to remote instruction due to the COVID-19 pandemic. Students and faculty rapidly adjusted how they engaged in learning in a time of great social and economic upheaval. In this paper, we use the lens of equity-oriented student engagement to examine how computing departments facilitated student participation in educationally engaging activities during the campus closures. The National Science Foundation-funded INCLUDES Alliance, the Computing Alliance of Hispanic-Serving Institutions (CAHSI), is a network of computing departments dedicated to increasing the representation of Hispanics in computing education and careers. We present results from a survey administered in spring 2020 to over 900 CAHSI students in 14 computing departments at Hispanic-Serving Institutions and interviews with 30 faculty, department chairs, and leaders. Though students reported increased financial and mental health struggles, they reflected on the myriad ways that faculty and peers supported their learning and sustained their engagement in coursework and co-curricular opportunities. In response to the pandemic, faculty and student leaders structured supports, such as peer-led team learning sessions and student clubs, to operate effectively in remote environments to promote student engagement. 

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3. Resilience in Action through Culture: Latinas Successfully Navigating STEM Spaces at an HSI

   https://doi.org/10.3390/educsci14080848  

   Perez, Emma Claudia ; Gonzalez, Elsa Maria ; Sanchez_Hernandez, Isabella ( August 2024 , Education Sciences)

   Though research on the perspectives and assets of communities of color in higher education has grown, understanding how underrepresented groups in STEM use those assets to navigate and succeed in STEM fields is still in progress. In this study, Latina students majoring in STEM fields in a Hispanic-Serving Institution (HSI) were interviewed about their college experience and persistence. A Latine resilience model and an HSI servingness framework guided the analysis. Qualitative methodology via case study served to understand this research. Evidence gathered in this study demonstrates how social climate experiences and cultural background influence resilience and success strategies among diverse Latina STEM majors in an HSI. The STEM social climate or culture seemingly clashed with participants’ cultural backgrounds. Perhaps most pertinent to their cultural background and resilience as Latinas were the specific success strategies or assets that participants utilized to navigate the STEM experience. Participants gravitated to diverse spaces, desired more women and ethnic representation in their STEM departments, and practiced prosocial or communal motivations. Understanding STEM culture in conjunction with the assets and strategies that Latinas utilize as ethnic women is important for HSIs as they consider how they truly serve their constituents.

    

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4. Developing a Leadership Community of Practice Toward a Healthy Educational Ecosystem

   Nazar, C.. ; Thompson, L. ; Bowen, C. ; Menezes, G. ( June 2023 , 2023 ASEE Annual Conference & Exposition)

   Student success in educational ecosystems is a primary goal of leadership efforts. Yet, power and privilege affect the racial, classist, and gendered implications of STEM education work in K-12 education as well as higher education. Interventions have been done at various levels, but despite the hard work of implementation, this has not resulted in dramatic improvements to STEM educational ecosystems or student engagement within them. Often, these implementations are done at the faculty/student level or institutional level but not at the departmental leadership level. The NSF-supported Eco-STEM Project proposes to establish a healthy educational ecosystem that supports all individuals (students, faculty, and staff) to thrive. Project activities are guided by ecosystem paradigm measures that support a culturally responsive learning/working environment; make teaching and learning rewarding and fulfilling; and emphasize community assets to enhance motivation, excellence, and success. For this work-in-progress paper, we describe the development of a leadership community of practice, comprised of department chairs of science and engineering departments, at [university name redacted], a large state-funded comprehensive majority minority master’s granting institution in the Southwest United States. In the year-long Leadership Community of Practice (L-CoP), the Fellows work on unpacking issues of power and privilege in their roles as STEM leaders and educators. During the Fall semester of 2022, the Fellows participated in four sessions. They engaged in readings, videos, active-learning activities, and critically reflective dialogues to facilitate discussion and reflection on identity, agency, the culture of power in STEM, and interventions and change in higher education. The L-CoP starts with Fellows reflecting on their social and professional identities and how their identities influence their teaching and leadership philosophies. Then Fellows are introduced to the framework of the culture of power in science--where they explore the social, cultural, and political impacts of preparing for a STEM college education. Finally, they explore theories and models of change for STEM higher education spaces. Through this curriculum, we aim to examine mental models to deconstruct notions that uphold the culture of power in science by instead building counternarratives with faculty and students in their departments. Through dialogues within the L-CoP, leaders discuss classroom/program climate, structure, and vibrancy to better support healthy educational ecosystems, as well as their participation in these systems. We are currently in the middle of our first implementation of the L-CoP. The first cohort consists of six L-CoP Fellows with highly diverse positionalities; there is racial, ethnic, and gender diversity, and all Fellows are full professors in the tenure line and chairs of their respective departments. We present details of the L-CoP, including the formation of the Fellow cohort, training of the facilitators, structure of the sessions, and initial results of our mid-program survey. The survey results provide insights into potential improvements to our tools and program. We also share some of the Fellows’ and facilitators’ reflections demonstrating a shift toward an ecosystem mindset. We prefer to present this work as a poster at the 2023 ASEE Annual Conference. 

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5. Culturally Relevant Pedagogy: A Model To Guide Cultural Transformation in STEM Departments

   https://doi.org/10.1128/jmbe.v21i1.2097  

   Johnson, Angela ; Elliott, Samantha ( January 2020 , Journal of Microbiology & Biology Education)

   Despite recent interest and pressing need, we lack a clear model of culturally relevant, responsive, sensitive teaching in university STEM departments. Most culturally relevant efforts within STEM education address actions individual professors can take within their own classrooms and mentoring, rather than describing how to go about enacting cultural transformation at the departmental level. In this article, we propose the application of the Ladson-Billings model of culturally relevant pedagogy to promote an inclusive culture within undergraduate STEM departments. The model consists of three components: academic success, cultural competence and integrity, and critical consciousness. We define each component and describe what it looks like and how it can be used to guide departmental transformation, including examples in biology, physics, mathematics, and computer science departments at our own institution. This model can help guide faculty committed to creating departments where all kinds of STEM students can thrive, provided they are willing to work hard. 

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