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Monitored Natural Attenuation of Explosives

2001; Taylor & Francis; Volume: 10; Issue: 1 Linguagem: Inglês

10.1080/20015891109185

1549-7887

Judith C. Pennington, James M. Brannon, Douglas Gunnison, Danny W. Harrelson, Mansour Zakikhani, Paul H. Miyares, Thomas F. Jenkins, Joan U. Clarke, Charolett A. Hayes, David Ringleberg, E.A. Perkins, H. L. Fredrickson,

Groundwater flow and contamination studies

Explosives are subject to several attenuation processes that potentially reduce concentrations in groundwater over time. Some of these processes are well defined, while others are poorly understood. The objective of the project was to optimize data collection and processing procedures for evaluation and implementation of monitored natural attenuation of explosives. After conducting experiments to optimize data quality, a protocol was established for quarterly monitoring of thirty wells over a 2-year period at a former waste disposal site. Microbial biomarkers and stable isotopes of nitrogen and carbon were explored as additional approaches to tracking attenuation processes. The project included a cone penetrometry sampling event to characterize site lithology and to obtain sample material for biomarker studies. A three-dimensional groundwater model was applied to conceptualize and predict future behavior of the contaminant plume. The groundwater monitoring data demonstrated declining concentrations of explosives over the 2 years. Biomarker data showed the potential for microbial degradation and provided an estimate of the degradation rate. Measuring stable isotopic fractions of nitrogen in TNT was a promising method of monitoring TNT attenuation. Overall, results of the demonstration suggest that monitored natural attenuation is a viable option that should be among the options considered for remediation of explosives-contaminated sites.