Recharge pathways and rates for a sand aquifer beneath a loess-mantled landscape in western Tennessee, U.S.A.

• Main Authors: Daniel Larsen, John Bursi, Brian Waldron, Scott Schoefernacker, James Eason
• Format: Article
• Language: English
• Published: Elsevier 2020-04-01
• Series: Journal of Hydrology: Regional Studies
• Online Access: http://www.sciencedirect.com/science/article/pii/S2214581819302198

Study region: : Western Tennessee, U.S.A. Study focus: : Recharge to aquifers that underlie loess and other fine-grained surficial deposits in western Tennessee as well as other areas is commonly impeded resulting in sensitivity in regard to sustainability of groundwater resources. This study investigates the role of preferential pathways of recharge to the regional Memphis aquifer in an area mantled by loess and fine-grained paleosols. New hydrological insights: : Data gathered through a vadose-zone chloride mass balance analysis and a year of monitoring physical hydrologic, water chemistry, and environmental and applied tracer data within an upland watershed in western Tennessee indicate that recharge to the Memphis aquifer is dominated by lateral recharge of infiltrated stream water sources rather than vertical infiltration through loess-covered uplands. The results from this research challenge prevailing models of recharge to the Memphis aquifer and aquifers mantled by loess or other fine-grained soils in other regions that envision vertical recharge through fine-grained soils to be the dominant recharge mechanism. Keywords: Groundwater, Loess, Aquifer, Vertical infiltration, Lateral recharge