2005 Salt Lake City Annual Meeting (October 16–19, 2005)

Paper No. 10
Presentation Time: 10:30 AM

A TECHNIQUE FOR IDENTIFYING THE SOURCES OF NA AND CL CONTAMINATION IN SURFACE WATER AND GROUND WATER


PANNO, Samuel V.1, HACKLEY, Keith C.1, HWANG, Hue-Hwa1, GREENBERG, Sallie1, KRAPAC, Ivan G.1, LANDSBERGER, Sheldon2 and O'KELLY, Donna J.2, (1)Isotope Geochemistry, Illinois State Geological Survey, 615 E. Peabody Drive, Champaign, IL 61820-6964, (2)Nuclear and Radiation Engineering Program, University of Texas at Austin, Pickle Research Campus, R-9000, Austin, TX 78712, panno@isgs.uiuc.edu

Elevated concentrations of Na+ and Cl- in natural waters are common in the U.S. and other countries, and can serve as indicators of, or may themselves constitute a water quality problem. We have characterized the most prevalent natural and anthropogenic sources of Na+ and Cl- in groundwater and surface water, and explored techniques that could be used to identify each source in waters in which the sources of Na+ and Cl- may be unknown. We considered seven potential sources including agricultural chemicals, septic effluent, animal waste, municipal landfill leachate, seawater, basin brines, and road deicers.

The halides Cl->, Br- and I- were the most useful indicators of the sources of Na+ and Cl- contamination. Iodide enrichment (relative to Cl-) was greatest in precipitation, followed by uncontaminated ground water, and landfill leachate. The mass ratios of the halides among themselves, with total nitrogen (N), and with Na+ and B provided the most diagnostic methods for graphically distinguishing among sources of Na+ and Cl- in contaminated waters. Cl/Br ratios plotted against Cl- revealed a clear separation of sample groups. Samples of landfill leachate and ground water known to be contaminated by leachate were enriched in I- and Br-; this provided an excellent, fingerprint for identifying leachate contamination. In addition, total N, when plotted against Cl/Br ratios, successfully separated waters contaminated by road salt from waters contaminated by other sources. These graphical techniques provide an improved means of identifying the sources of Na+ and Cl- contamination in natural waters.