Quantity and quality of groundwater discharge in a hyper-saline lake environment, Great Salt Lake, Utah, USA

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Publication Type thesis
School or College College of Mines & Earth Sciences
Department Geology & Geophysics
Author Anderson, Richard Beau
Title Quantity and quality of groundwater discharge in a hyper-saline lake environment, Great Salt Lake, Utah, USA
Date 2012-12
Description Previous studies in Great Salt Lake (GSL) suggest that unmeasured sources of selenium (Se) may enter the lake via groundwater discharge. A fiber-optic distributed temperature sensing (FO-DTS) survey was performed in the south arm of GSL during 2010 to identify near-shore areas of groundwater discharge. The FO-DTS data found there are consistent cold-water temperature anomalies with measured seepage rates between 0.01-2.37 cm/day. The CRP survey also identified three continuous layers in the subsurface: (1) a top conductive layer 2 m thick with resistivity of 0.5 ohm-m; (2) a middle 3-4 m thick resistive layer with resistivity about 4-5 ohm-m; and (3) a bottom conductive layer with a resistivity about 0.5-1 ohm-m. The middle layer is likely mirabilite (Na2S04 10 H2O), a hard impermeable salt, which appears to decrease in thickness in a W-NW direction towards the lake. Water-level observations indicate the aquifer is semiconfined and supports the CRP data showing a thinning or disappearance of the salt layer. The positive seepage suggests the mirabilite may not be as impermeable as it seems or the top 1 m of the sand above the hard salt layer is acting as a shallow aquifer which transmits shallow groundwater discharge. The R/Ra values in the groundwater are <1 and the tritium concentrations (1.2-2.0 TU) in the groundwater suggests the water has components of old and young groundwater. Geochemical modeling shows that mirabilite saturation index values for the groundwater samples were all slightly >0, indicating the water is at equilibrium with respect to mirabilite. The open water of GSL along the south shoreline had Se concentrations (1.9 ug/L) 3-4 times higher than 4 open water sites in the south arm of GSL (0.5 pg/L) measured during a 2006-2008 study. Geochemical modeling was performed on a groundwater sample collected 2 km north of a mine tailings pond containing elevated arsenic (As) and low Se concentrations. The modeling results suggest that under reducing conditions, As-bearing minerals are mobilized while Se-bearing minerals will likely precipitate out of solution possibly explaining why the shallow groundwater below the hard salt layer have low concentrations of Se (0.9-2.3 pg/L).
Type Text
Publisher University of Utah
Subject FO-DTS; Groundwater; GSL; Mirabilite; Saline; Selenium
Dissertation Institution University of Utah
Dissertation Name Master of Science
Language eng
Rights Management Copyright © Richard Beau Anderson 2012
Format Medium application/pdf
Format Extent 1,686,120 bytes
ARK ark:/87278/s6qr5bz6
Setname ir_etd
ID 195714
Reference URL https://collections.lib.utah.edu/ark:/87278/s6qr5bz6