A SYNOPTIC SURVEY OF SPRINGS IN THE DRIFTLESS AREA OF MINNESOTA TO IDENTIFY THE ROLE OF SPRINGSHED LAND USE/LAND COVER IN GROUNDWATER QUALITY

The Driftless Area is a topographically distinct region of the Upper Midwest lacking the thick cover of glacial deposits typical of surrounding areas. Gently dipping layers of Paleozoic sedimentary bedrock are widely exposed at the land surface, with alternating clastic aquifers, carbonate aquifers, and fine-grained aquitards, all cut by systematic regional jointing and incised topography. Well-developed karst systems feed numerous springs and coldwater streams, but also make the region highly vulnerable to groundwater contamination from extensive agricultural activity.

As part of a Keck Geology Consortium REU program, undergraduate students will survey approximately fifty springs across the Minnesotan part of the Driftless Area over a three-week period in August 2024, creating a snapshot in time of late-summer baseflow conditions. At each spring, we will record discharge, temperature, pH, electrical conductivity, dissolved oxygen, and nitrate concentration. We will also sample a subset of springs for stable isotopes.

We will use these data and public land use/land cover GIS data to determine the relationship between springshed land use/land cover and the basic water physical and chemical parameters collected in-situ. Our initial hypothesis is that the primary determinant of spring water quality is the average age of groundwater emerging from the spring, with land use practices within the springshed having a larger impact in springs with younger groundwater ages, and stratigraphic and topographic position playing a minor role. This idea has been put forward in existing literature, but has not been systematically tested.