Emerging Geoscience Education Research at the University of British Columbia

Geoscience education research (GER) in UBC’s Department of Earth and Ocean Sciences (EOS) began due to a well funded 5-yr Faculty of Science project called the Carl Wieman Science Education Initiative (CWSEI). This initiative takes an evidence-based, scientific approach to improving education by 1) establishing what students should learn; 2) scientifically measuring what students are learning; 3) adapting instruction and curricula using effective technologies and pedagogical research; and 4) disseminating and adopting what works. The presentation will discuss how this initiative has fostered a growing GER presence within our Department. CWSEI funding has enabled the EOS Department to hire 4 full-time Science Teaching and Learning Fellows (STLFs) who work directly with faculty to optimize courses and curricula. Much of the effort goes into developing active learning opportunities and rigorous ways to measure student learning and attitudes. Results serve as feedback for both students and instructors. Over 10 research projects have so far been initiated as a result of course and curriculum transformation. Examples include studies about: student attitudes towards Earth and Ocean Sciences; the effects of multiple instructors in courses; links between student in-class engagement and pedagogy; how certain instructional interventions promote metacognition; and others. Also, many modified courses use pre- and post-testing to measure learning gains. One undergraduate honors thesis, about assessing conceptual understanding of geological time, has been completed. Keys to fostering GER in our setting include: (1) faculty commitment to change, based on funding from CWSEI, (2) full-time Earth scientists (STLFs) who catalyze and support change, and (3) support from CWSEI science education experts. Specifically: - STLFs are trained Earth scientists but were not initially science education experts. Continuous support from CWSEI has been crucial for building expertise about how science is learned. - STLFs neither teach nor do course development alone. Rather, they bring dedication, focus, and enthusiasm to work with faculty members, and involve them in research aspects of the project. - Faculty effort is supported with reduced teaching loads. By project’s end, most (45-50) faculty members will have participated. Already, some have begun to actively pursue GER. - Students are involved: a new geoscience education course encourages graduate students to adopt scientific approaches to teaching early in their careers, and we engage undergraduates to assist with collection and analysis of education research data. Sustaining GER is challenging, therefore all reporting requirements are designed with transfer and sustainable practice in mind. Half way into the project, we have involved over 60% of our teaching faculty, worked on over 20 courses, and initiated several projects that affect our Department’s teaching in general. Faculty are beginning to engage in their own GER projects by observing where improvement is desirable, proposing and implementing changes, and measuring the effects. This scientific approach to teaching and learning is helping catalyze a sustainable GER presence in our department.