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This article in JEQ

  1. Vol. 31 No. 3, p. 782-796
     
    Received: Feb 8, 2001
    Published: May, 2002


    * Corresponding author(s): lpuckett@usgs.gov
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doi:10.2134/jeq2002.7820

Transport and Fate of Nitrate in a Glacial Outwash Aquifer in Relation to Ground Water Age, Land Use Practices, and Redox Processes

  1. Larry J. Puckett *a and
  2. Timothy K. Cowderyb
  1. a U.S. Geological Survey, 413 National Center, Reston, VA 20192
    b U.S. Geological Survey, 2280 Woodale Road, Mounds View, MN 55112

Abstract

A combination of ground water modeling, chemical and dissolved gas analyses, and chlorofluorocarbon age dating of water was used to determine the relation between changes in agricultural practices, and NO 3 concentrations in ground water of a glacial outwash aquifer in west-central Minnesota. The results revealed a redox zonation throughout the saturated zone with oxygen reduction occurring near the water table, NO 3 reduction immediately below it, and then a large zone of ferric iron reduction, with a small area of sulfate (SO2− 4) reduction and methanogenesis (CH4) near the end of the transect. Analytical and NETPATH modeling results supported the hypothesis that organic carbon served as the electron donor for the redox reactions. Denitrification rates were quite small, 0.005 to 0.047 mmol NO 3 yr−1, and were limited by the small amounts of organic carbon, 0.01 to 1.45%. In spite of the organic carbon limitation, denitrification was virtually complete because residence time is sufficient to allow even slow processes to reach completion. Ground water sample ages showed that maximum residence times were on the order of 50 to 70 yr. Reconstructed NO 3 concentrations, estimated from measured NO 3 and dissolved N gas showed that NO 3 concentrations have been increasing in the aquifer since the 1940s, and have been above the 714 μmol L−1 maximum contaminant level at most sites since the mid- to late-1960s. This increase in NO 3 has been accompanied by a corresponding increase in agricultural use of fertilizer, identified as the major source of NO 3 to the aquifer.

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Copyright © 2002. American Society of Agronomy, Crop Science Society of America, Soil Science SocietyPublished in J. Environ. Qual.31:782–796.