Inquiry-based learning transitions to interdisciplinary research at a small primarily undergraduate institution.

Inquiry-based learning has been shown by many to be a useful way of engaging students and fostering a deeper learning of the subject matter. In traditional geophysics courses we use our equipment in a quad on campus or to a nearby site to have our students run surveys that countless students have run before. While this approach is active and does promote a deeper learning than a lecture only course, it can still be stale and unauthentic. By using new and unexplored sites for inquiry-based learning projects within our courses, we provide opportunities for students to be part of an authentic research experience. Inquiry-based learning started in my geophysics course when I needed a site for my students to run a resistivity survey on. My colleague, James Ward, recommended a site that was contaminated with salts believed to be from either an unlined (or improperly lined) brine pit or a leaking casing from old oil field operations. The goal of the project was to use a resistivity survey to determine the shape and therefore cause of the salt source. The students in my geophysics class were introduced to the `client' (James Ward) who told them about the site and the two different hypotheses for the source of the salt contamination. The students studied site images, looked at soil data, and then each proposed a plan for the resistivity survey. We then met in the field and the students were given a quick explanation of how the system worked and what they needed to do that day. The students were told to take thorough notes, lots of photographs, and ask as many questions as they needed to understand what was going on. On the following Monday I broke the students up into groups and taught them how to use the EarthImager 2D software to analyze the data. The students were then required to interpret their data and write-up a technical report for our `client' individually. The final graded technical reports suggested that authentic, inquiry-based learning facilitated a deeper understanding of the process of science and of the geophysical method used. In addition, the students who worked on this study have seen it turn into real research at the institution. Six undergraduate, independent, faculty-mentored research projects and one external, private grant for faculty in geology and agriculture have come from this project so far.