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Competencies for Community College Leaders
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Active learning narrows achievement gaps for underrepresented students in undergraduate science, technology, engineering, and math
Elli J. Theobald; Mariah J. Hill; Elisa Tran; Sweta Agrawal; E. Nicole Arroyo; Shawn Behling; Nyasha Chambwe; Dianne Laboy Cintrón; Jacob D. Cooper; Gideon Dunster; Jared A. Grummer; Kelly Hennessey; Jennifer Hsiao; Nicole Iranon; Leonard Jones II; Hannah Jordt; Marlowe Keller; Melissa E. Lacey; Caitlin E. Littlefield; Alexander Lowe; Shannon Newman; Vera Okolo; Savannah Olroyd; Brandon R. Peecook; Sarah B. Pickett; David L. Slager; Itzue W. Caviedes-Solis; Kathryn E. Stanchak; Vasudha Sundaravardan; Camila Valdebenito; Claire R. Williams; Kaitlin Zinsli; and Scott Freeman
This study is a comprehensive meta-analysis of research on the influence of active and traditional learning approaches on STEM course outcomes (exam scores and course failure rates) for underrepresented students. Time-intensive active learning experiences contributed to reduced achievement gaps in exam scores and pass rates. Researchers concluded that deliberate active-learning course designs and inclusive teaching contribute to increasing equity in STEM. Although this study does not discuss cost-benefits, it affirms the value of investing in pedagogical enhancements to increase student retention and success. In this case, the benefits are continuous tuition revenue through student retention and the moral imperative of reducing equity gaps.

Integrating across Academic and Student Affairs to Support Underrepresented Students in STEM: Lessons from the CSU STEM Collaboratives
Elizabeth Holcombe, Indiana University-Bloomington
The challenges of keeping undergraduate students in STEM programs and getting them to complete their degrees are well-documented and frequently discussed by members of this group and a wide audience of stakeholders around the country (Eagan, Hurtado, Figueroa, & Hughes, 2014). For students from underrepresented backgrounds, these challenges are even steeper, as they may have experienced inadequate high school preparation in math and science, an unwelcoming or chilly climate in college, or poorly taught introductory STEM courses (Tsui, 2007). Many existing interventions for underrepresented students in STEM tend to target small groups and remain disconnected from other support programs for low-income, first-generation, or minority students. Additionally, most existing support programs have either not included or not coordinated with ongoing efforts to reform introductory STEM curriculum and teaching.

Academic Advising: Leverage Point for Systemic Change Initiatives?
Sean Bridgen, Kansas State University
I am beginning my sixteenth year as an academic adviser; I have worked at large research universities, a small state college, and a small private college. My experiences and scholarly work have taught me that the day-to-day decisions academic advisers make can have a significant impact on how the university functions. Academic advising is structurally designed to include one on one conversations with students regarding the direction of their education, what their current challenges are, what they have learned, and what they want to learn in the future. As a result of this structure, advisers are uniquely positioned to have in-depth conversations about the university's mission, and why the curriculum is structured the way it is; this unique position can also allow advisers to function as a leverage point for change initiatives.

The Power (and necessity) of Students in Systemic Change
Marcos Montes; Dr. Rob Shorette
Almost any change in higher education is difficult. And slow. Systemic change, which produces seismic shifts in the operations and culture of an organization, is even more difficult to achieve. Or in the words of another ASCN blogger Jeanne Century, "the stakes are much higher and the challenge is greater." Particularly for public higher education institutions, there is no shortage of stakeholder groups with keen interests in the outcomes of systemic change efforts, including faculty, staff, administrators, lawmakers, community members, and the general public. Certainly, a process that authentically includes all of these stakeholder groups and reflects the varying perspectives each bring to the table is essential to successful change. However, no group has as much at stake when it comes to systemic change in higher education as students.

CUREnet
CUREnet CUREnet is a network of people and programs that are creating course-based undergraduate research experiences (CUREs) in biology as a means of helping students understand core concepts in biology, develop ...

What is systemic change?
Charles Henderson Western Michigan University Charles Henderson
"Systems are perfectly designed to achieve the results that they are achieving right now."1 Higher education organizations are complex systems with many interacting subsystems. In order to create sustainable change, it is necessary to understand and align these subsystems. Subsystems include the faculty reward system, the higher education funding system that is based on student enrollment, the organization of universities into academic departments, the tradition of faculty autonomy over instruction, the metrics used to judge student performance (grades vs. learning), etc. Many change initiatives fail because they focus on only one subsystem without considering how this subsystem interacts with other subsystems. For example, in STEM it is common for education reformers to work to convince individual instructors about the benefits of active learning (that is, to change the instructor-student-instructional method subsystem). Research suggests that many instructors are receptive to this message and are interested in using more active learning strategies.

Implementing Integrated Comprehensive Student Programs in STEM: Challenges and Facilitators from the CSU STEM Collaboratives
Elizabeth Holcombe, Indiana University-Bloomington
In my last post, I described the benefits of integrated support programs for underrepresented students in STEM. These integrated programs bridge organizational silos and build a unified community of support, in which faculty and staff work together to break down barriers to student success. The campuses that participated in the CSU STEM Collaboratives project saw increased student success and other organizational benefits as a result of creating integrated programs. While integration across functional areas represents a promising strategy for supporting student success, it represents a new way of working in higher education. Implementing integrated programs presents some unique challenges that may not be evident when implementing other types of interventions. In this post, I will briefly discuss a few of these challenges, as well as some strategies that STEM Collaboratives campuses used to overcome them.