Perchlorate Behavior in a Municipal Lake Following Fireworks Displays

Richard T. Wilkin,* Dennis D. Fine, and Nicole G. Burnett§
Office of Research and Development, National Risk Management Research Laboratory, U.S. Environmental Protection Agency, 919 Kerr Research Drive, Ada, Oklahoma 74820, Shaw Environmental and Infrastructure, P.O. Box 1198, Ada, Oklahoma 74821-1198, and College of Medicine, University of Oklahoma, 900 NE 10th Street, Oklahoma City, Oklahoma 73104
Environ. Sci. Technol., 2007, 41 (11), pp 3966–3971
DOI: 10.1021/es0700698
Publication Date (Web): May 2, 2007
Copyright © 2007 American Chemical Society
*

 Corresponding author phone:  (580) 436-8874; fax:  (580) 436-8703; e-mail:  wilkin.rick@epa.gov.

,

 U.S. Environmental Protection Agency.

,

 Shaw Environmental and Infrastructure.

,
§

 University of Oklahoma.

Abstract

Perchlorate salts of potassium and ammonium are the primary oxidants in pyrotechnic mixtures, yet insufficient information is available regarding the relationship between fireworks displays and the environmental occurrence of perchlorate. Here we document changes in perchlorate concentrations in surface water adjacent to a site of fireworks displays from 2004 to 2006. Preceding fireworks displays, perchlorate concentrations in surface water ranged from 0.005 to 0.081 μg/L, with a mean value of 0.043 μg/L. Within 14 h after the fireworks, perchlorate concentrations spiked to values ranging from 24 to 1028× the mean baseline value. A maximum perchlorate concentration of 44.2 μg/L was determined following the July 4th event in 2006. After the fireworks displays, perchlorate concentrations decreased toward the background level within 20 to 80 days, with the rate of attenuation correlating to surface water temperature. Adsorption tests indicate that sediments underlying the water column have limited (<100 nmol/g) capacity to remove perchlorate via chemical adsorption. Microcosms showed comparatively rapid intrinsic perchlorate degradation in the absence of nitrate consistent with the observed disappearance of perchlorate from the study site. This suggests that at sites with appropriate biogeochemical conditions, natural attenuation may be an important factor affecting the fate of perchlorate following fireworks displays.

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History

  • Published In Issue June 01, 2007
  • Received for review January 10, 2007
    Revised manuscript received March 14, 2007
    Accepted March 15, 2007

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