Estimating Riparian Water Movement in an Incipient Karst Landscape—Minnesota, USA

Author:

Aggarwal Shubham1,Kuehner Kevin J.2,Magner Joe1ORCID

Affiliation:

1. Department of Bioproducts and Biosystems Engineering, University of Minnesota, St. Paul, MN 55108, USA

2. Minnesota Department of Agriculture, Preston, MN 55965, USA

Abstract

Understanding rain, ground, and surface water interactions in riparian zones is essential for hydrologic and environmental management. The novelty of this study lies in its revelation of isotopic shifts and consequent evaluation of hydrologic pathways and processes within the forested riparian zones of three distinct streams, valleys, and riparian systems in a carbonate-sandstone incipient karst landscape. We collected water samples from three southeastern Minnesota catchments: Trout Brook, Crystal Creek, and Bridge Creek. A Picarro L2130i was used to measure δ18O for oxygen, and δD for deuterium in units of ‰ (per mil). We estimated the global meteoric line for the study sites, built upon aquifer age dating, and explored aquifer transit time for the study sites using a simple seasonal amplitude model. The results showed small amplitudes for 2020 and 2021, suggesting that bedrock aquifer water was the primary source water with a mean core transit time greater than 10 years. All three catchments were different but had similar bedrock valley types and riparian sediment. The primary driving factor was the seasonal precipitation input mixing with existing water. In a normal to wetter year, the isotopic data showed larger amplitude shifts between seasons with trendlines that adjusted depending on the temperature of the new water additions. The proposed approach is valuable in revealing complex hydrologic processes and pathways and can contribute extensively to the planning and management of karst riparian systems.

Funder

State of Minnesota, Environmental Natural Resources Trust Fund

Publisher

MDPI AG

Reference34 articles.

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3. White, W.B. (2023, October 04). Cave—Karst, Terrain, Distribution|Britannica. Available online: https://www.britannica.com/science/cave/Geographic-distribution-of-karst-terrain.

4. Beynen, P.E. (2011). Karst Management, Springer.

5. Identifying the Hydrological Behavior of a Complex Karst System Using Stable Isotopes;Rusjan;J. Hydrol.,2019

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