Individual | Inclusive Graduate Education Network

Learning in the Wild: Fieldwork, Gender, and the Social Construction of Disciplinary Culture

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ABSTRACT

After GRExit: Reducing Bias in Geoscience Graduate Admissions

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Dropping the GRE is just a first step toward holistic admissions. To further reduce bias in applicant evaluations, the UMass-Amherst geosciences program has changed the way it assesses students.

Misaligned Visions for Improving Graduate Diversity: Student Characteristics vs. Systemic/Cultural Factors

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Abstract: Physics departments are increasingly working to improve diversity in graduate programs by using more holistic strategies in their admission and retention practices. However, completion rates for traditionally underserved groups are still problematic. By understanding and accounting for faculty and student divergence on challenges faced in retention, graduate programs will be better equipped to enact change.

New View of Expanding Perspectives in the Geosciences

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"Earth and environmental sciences have some of the least diverse racial and ethnic representation in academia. To face profound future challenges, the fields need to address the inequities of the past and how they inform the present."

Ten simple rules for building an antiracist lab

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Abstract: Demographics of the science, technology, engineering, and mathematics (STEM) workforce and student body in the US and Europe continue to show severe underrepresentation of Black, Indigenous, and people of color (BIPOC). Among the documented causes of the persistent lack of diversity in STEM are bias, discrimination, and harassment of members of underrepresented minority groups (URMs). These issues persist due to continued marginalization, power imbalances, and lack of adequate policies against misconduct in academic and other scientific institutions.

Five reasons graduate programs reject stellar applicants

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Analyzing admissions metrics as predictors of graduate GPA and whether graduate GPA mediates Ph.D. completion

Read more about Analyzing admissions metrics as predictors of graduate GPA and whether graduate GPA mediates Ph.D. completion

An analysis of 1955 physics graduate students from 19 Ph.D. programs shows that undergraduate grade point average predicts graduate grades and Ph.D. completion more effectively than GRE scores. Students’ undergraduate GPA (UGPA) and GRE Physics (GRE-P) scores are small but statistically significant predictors of graduate course grades, while GRE quantitative and GRE verbal scores are not. We also find that males and females score equally well in their graduate coursework despite a statistically significant 18 percentile point gap in median GRE-P scores between genders. A counterfactual mediation analysis demonstrates that among admission metrics tested only UGPA is a significant predictor of overall Ph.D. completion, and that UGPA predicts Ph.D. completion indirectly through graduate grades. Thus UGPA measures traits linked to graduate course grades, which in turn predict graduate completion. Although GRE-P scores are not significantly associated with Ph.D. completion, our results suggest that any predictive effect they may have is also linked indirectly through graduate GPA. Overall our results indicate that among commonly used quantitative admissions metrics, UGPA offers the most insight into two important measures of graduate school success, while posing fewer concerns for equitable admissions practices.

First-year graduate courses foster inclusion

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Increasing diversity in the (scientific) discipline must begin first with creating a more inclusive and sustainable for those who enter them.

Disrupt and demystify the unwritten rules of graduate school

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The hidden curriculum of academia in North America includes social and cultural norms that typically align with those of the white middle class1. This means that the hidden curriculum can be even less visible, and ultimately inhospitable, hostile and exclusionary, for those with intersecting and marginalized identities with regard to, for example, race, ethnicity, gender and sexuality.

An actionable anti-racism plan for geoscience organizations

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Geoscience organizations shape the discipline. They influence attitudes and expectations, set standards, and provide benefits to their members. Today, racism and discrimination limit the participation of, and promote hostility towards, members of minoritized groups within these critical geoscience spaces. This is particularly harmful for Black, Indigenous, and other people of color in geoscience and is further exacerbated along other axes of marginalization, including disability status and gender identity. Here we present a twenty-point anti-racism plan that organizations can implement to build an inclusive, equitable and accessible geoscience community. Enacting it will combat racism, discrimination, and the harassment of all members.