1 World Environmental & Water Resourdces Congress 2009, May 17-21, 2009, Kansas City Missouri A Methodology to Reconstruct Groundwater Contamination History with Limited Field Data 1 Jiabao Guan 2 , Morris L. Maslia 3 , and Mustafa M. Aral 4 Abstract A health risk assessment of exposure to contaminants in drinking water frequently requires reconstructing the groundwater contamination history in aquifers. The development of groundwater flow and contaminant fate and transport models used in such an analysis is time- consuming and expensive. Therefore, new approaches need to be explored to reconstruct groundwater contamination history that may reduce the time and expense of the traditional numerical modeling approaches. An ongoing health study at U.S. Marine Corps Base Camp Lejeune, North Carolina, will determine if an association exists between exposure to contaminated drinking water and birth defects and childhood cancers in children born to women who were pregnant while living at the base during the period 1968–1985. For this study, there are no field data on groundwater contamination at water-supply wells prior to 1985. Limited contaminant concentration data at several observation wells are available during and after 1992 when remedial investigations of the contaminated aquifers began. To assist the epidemiological study in determining historical exposure scenarios, groundwater contaminant history needs to be reconstructed at base housing areas. Interpreting the mathematical models that are used in the analysis of groundwater flow and contaminant fate and transport and using the field data available on contaminant levels, a linear control model is proposed for the purpose of reconstructing the historical exposure to contaminated groundwater. The control model includes two matrices: (i) the first matrix describes the system behavior of the contaminant movement in aquifers in a natural environment and, (ii) the second matrix reflects the effect of pumping operations on contaminant concentrations. In the control model, the system matrix is recognized by using the least-squares method and the effect of pumping operations is determined by using an optimization method and an improved genetic algorithm when solving for matrix coefficients. To test the proposed methodology and to demonstrate the effectiveness of the model and proposed algorithm, the Tarawa Terrace base housing area of Camp Lejeune, which has been modeled in detail, is chosen. Computational results show that the model proposed herein can be used as a screening method to recover 1 The findings and conclusions in this paper are those of the authors and do not necessarily represent the views of the Agency for Toxic Substances and Disease Registry or the U.S. Department of Health and Human Services. 2 Senior Research Engineer, Multimedia Environmental Simulations Laboratory, School of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, Georgia 30332, jg79@ce.gatech.edu. 3 Research Environmental Engineer, Agency for Toxic Substances and Diseases Registry, Centers for Disease Control and Prevention, Atlanta, Georgia 30341, mmaslia@cdc.gov. 4 Director, Multimedia Environmental Simulations Laboratory, School of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, Georgia 30332, mustafa.aral@ce.gatech.edu.