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The AAPG/Datapages Combined Publications Database
Environmental Geosciences (DEG)
Abstract
Environmental Geosciences, V.
DOI:10.1306/eg.12141111012
Geochemical evaluation of high sulfate levels in Ponca Creek, northeastern Nebraska
Jon C. Atkinson1
1Air Force Center for Engineering and the Environment (AFCEE)/restoration branch (TDV), 2261 Hughes Avenue, Suite 155, Lackland Air Force Base, Texas; [email protected]
AUTHORS
Jon C. Atkinson received an M.S. degree in geology, with emphasis on hydrogeology, in 1973 from the University of Nebraska. Mr. Atkinson has worked for the Air Force as an environmental hydrogeologist since November 1988. Previously, he worked for the Nebraska Department of Environmental Quality as a hydrogeologist for 15 yr. He has solely authored two groundwater/surface water quality articles in peer-reviewed journals.
ACKNOWLEDGEMENTS
This article is dedicated to the memory of Vincent H. Dreeszen (1921–2006), director of the Conservation and Survey Division (State Geological Survey), University of Nebraska-Lincoln, 1967 to 1987, who, as my M.S. thesis adviser 30 yr ago, nurtured my interest in groundwater quality and aqueous geochemistry. In addition, I greatly appreciate the detailed and constructive comments of the reviewers and editors that together have culminated in a notably improved article.
ABSTRACT
Most surface water and shallow groundwater occurring in northeastern Nebraska are of the calcium bicarbonate type, with minor concentrations (e.g., 10–200 mg/L) of sulfate (SO4). Examination of historical water quality data (major cations and anions) for Ponca Creek, a predominantly ephemeral stream in northeastern Nebraska, revealed that SO4 concentrations ranged from about 110 to almost 1000 mg/L and contribute to a calcium sulfate hydrochemical facies. Consequently, most SO4 concentrations were above the U.S. Environmental Protection Agency secondary maximum contaminant level in drinking water of 250 mg/L. Sulfate concentrations for the same period for a nearby stream, Verdigre Creek, range from about 20 to 120 mg/L. Research into probable sources of the elevated SO4 in Ponca Creek revealed that a Late Cretaceous shale, the Pierre Shale, occurs at or near the land surface throughout most of the creek's drainage area, whereas alluvium, other Quaternary deposits, or the Tertiary Ogallala Formation comprises the streambed in Verdigre Creek. The Pierre Shale, encompassing soils formed on this Cretaceous shale, is rich in sulfate-bearing minerals (e.g., gypsum, pyrite, jarosite) that comprise the principal source of the high sulfate in drainage basin soils, alluvium, creek discharge, and shallow groundwater of the Ponca Creek watershed. A public domain geochemical speciation software (Visual MINTEQ) was used to investigate aqueous SO4 geochemistry of Ponca Creek flow. Calculated saturation indices for Ponca Creek waters suggest that they are slightly undersaturated with respect to gypsum and anhydrite despite significant sulfate dissolution and are slightly supersaturated with respect to calcite in numerous samples.
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