Assessing opportunities and inequities in undergraduate ecological forecasting education

Alyssa M Willson; Hayden Gallo; Jody A Peters; Antoinette Abeyta; Nievita Bueno Watts; Cayelan C Carey; Tadhg N Moore; Georgia Smies; R Quinn Thomas; Whitney M Woelmer; Jason S McLachlan

doi:10.1002/ece3.10001

Assessing opportunities and inequities in undergraduate ecological forecasting education

Ecol Evol. 2023 May 2;13(5):e10001. doi: 10.1002/ece3.10001. eCollection 2023 May.

Authors

Affiliations

¹ Department of Biological Sciences University of Notre Dame Notre Dame Indiana 46556 USA.
² Department of Applied and Computational Mathematics and Statistics University of Notre Dame Notre Dame Indiana 46556 USA.
³ Mathematics, Physical and Natural Sciences Division University of New Mexico, Gallup Gallup New Mexico 87301 USA.
⁴ Indian Natural Resource Science & Engineering Program California Polytechnic State University, Humboldt Arcata California 95521 USA.
⁵ Department of Biological Sciences Virginia Polytechnic Institute and State University Blacksburg Virginia 24061 USA.
⁶ UNEP GEMS/Water Capacity Development Centre University College Cork Cork Ireland.
⁷ Division of Natural Resources Salish Kootenai College Pablo Montana 59855 USA.
⁸ Department of Forest Resources and Environmental Conservation Virginia Polytechnic Institute and State University Blacksburg Virginia 24061 USA.

Abstract

Conducting ecological research in a way that addresses complex, real-world problems requires a diverse, interdisciplinary and quantitatively trained ecology and environmental science workforce. This begins with equitably training students in ecology, interdisciplinary science, and quantitative skills at the undergraduate level. Understanding the current undergraduate curriculum landscape in ecology and environmental sciences allows for targeted interventions to improve equitable educational opportunities. Ecological forecasting is a sub-discipline of ecology with roots in interdisciplinary and quantitative science. We use ecological forecasting to show how ecology and environmental science undergraduate curriculum could be evaluated and ultimately restructured to address the needs of the 21^st century workforce. To characterize the current state of ecological forecasting education, we compiled existing resources for teaching and learning ecological forecasting at three curriculum levels: online resources; US university courses on ecological forecasting; and US university courses on topics related to ecological forecasting. We found persistent patterns (1) in what topics are taught to US undergraduate students at each of the curriculum levels; and (2) in the accessibility of resources, in terms of course availability at higher education institutions in the United States. We developed and implemented programs to increase the accessibility and comprehensiveness of ecological forecasting undergraduate education, including initiatives to engage specifically with Native American undergraduates and online resources for learning quantitative concepts at the undergraduate level. Such steps enhance the capacity of ecological forecasting to be more inclusive to undergraduate students from diverse backgrounds and expose more students to quantitative training.

Keywords: STEM education; curriculum; ecological forecasting; inclusion; undergraduate education.

Associated data

figshare/10.6084/m9.figshare.c.5995435.v1