Geologically controlled bi-directional exchange of groundwater with a hypersaline lake in the Canadian prairies |
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| Authors: | Laurence R Bentley Masaki Hayashi Elena P Zimmerman Chris Holmden Lynn I Kelley |
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| Institution: | 1.Department of Geoscience,University of Calgary,Calgary,Canada;2.Department of Geological Sciences,University of Saskatchewan,Saskatchewan,Canada;3.Saskatchewan Ministry of Environment,Regina,Canada |
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| Abstract: | Hypersaline lakes occur in hydrologically closed basins due to evaporitic enrichment of dissolved salts transported to the lakes by surface water and groundwater. At the hypersaline Lydden Lake in Saskatchewan, Canada, groundwater/lake-water interaction is strongly influenced by the geological heterogeneity of glacial deposits, whereby a highly permeable glaciofluvial sand/gravel deposit is underlain by glaciolacustrine deposits consisting of dense clay interspersed with silt/sand lenses. Pressure head distribution in a near shore area indicates a bi-directional flow system. It consists of topographically driven flow of fresh groundwater towards the lake in the sand/gravel aquifer and density-driven, landward flow of saline groundwater in the underlying glaciolacustrine deposits. Electrical resistivity tomography, and chemical and isotopic composition of groundwater clearly show the landward intrusion of saline water in the heterogeneous unit. The feasibility of bi-directional flow and transport is supported by numerical simulations of density-coupled groundwater flow and transport. The results suggest that the geologically controlled groundwater exchange processes have substantial influences on both inputs and outputs of dissolved minerals in hypersaline lakes in closed basins. |
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