Abstract
An innovative management strategy is proposed for optimized and integrated environmental management for regional or national groundwater contamination prevention and restoration allied with consideration of sustainable development. This management strategy accounts for availability of limited resources, human health and ecological risks from groundwater contamination, costs for groundwater protection measures, beneficial uses and values from groundwater protection, and sustainable development. Six different categories of costs are identified with regard to groundwater prevention and restoration. In addition, different environmental impacts from groundwater contamination including human health and ecological risks are individually taken into account. System optimization principles are implemented to accomplish decision-makings on the optimal resources allocations of the available resources or budgets to different existing contaminated sites and projected contamination sites for a maximal risk reduction. Established management constraints such as budget limitations under different categories of costs are satisfied at the optimal solution. A stepwise optimization process is proposed in which the first step is to select optimally a limited number of sites where remediation or prevention measures will be taken, from all the existing contaminated and projected contamination sites, based on a total regionally or nationally available budget in a certain time frame such as 10 years. Then, several optimization steps determined year-by-year optimal distributions of the available yearly budgets for those selected sites. A hypothetical case study is presented to demonstrate a practical implementation of the management strategy. Several issues pertaining to groundwater contamination exposure and risk assessments and remediation cost evaluations are briefly discussed for adequately understanding implementations of the management strategy.
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Literature Cited
American Petroleum Institute. 1989. Hydrogeologic database for groundwater modeling. Publication no. 4476, American Petroleum Institute, Washington, DC
Bartell S. M., R. H. Gardner, R. V. O’Neill. 1992. Ecological risk estimation. Lewis Publishers, Michigan
Bedient P. B., H. S. Rifai, C. J. Newell. 1999. Ground water contamination. Prentice Hall PTR, Englewood Cliffs, NJ
Bojorquez-Tapia L. A., L. Juarez, G. Cruz-Bello. 2002. Integrating fuzzy logic, optimization, and GIS for ecological impact assessments. Environmental Management 30:418–433
Dynamac Corp. 1998. Characterization of hydraulic properties of potentially fractured industrial D landfill sites, and a study of heterogeneity effects on fate and transport in groundwater. Subsurface Protection and Remediation Division, U.S. Environmental Protection Agency’s National Risk Management Research Laboratory
Field S. A., A. J. Tyre, N. Jonzen, J. R. Rhodes, H. P. Possingham. 2004. REPORT: minimizing the cost of environmental management decisions by optimizing statistical thresholds. Ecology Letters 7:669–675
Fu G., A. T. Kan, M. B. Tomson. 1994. Adsorption and desorption irreversibility of polycyclic aromatic hydrocarbons in surface sediment. I. Characterization of desorption hysteresis. Environmental Toxicology Chemistry 13:1559–1567
Gelhar L.W., C. Welty, K. R. Rehfeldt. 1992. A critical review of data on field-scale dispersion in aquifers. Water Resources Research 28:1955–1974
Kan A. T., G. Fu, M. B. Tomson. 1994. Adsorption/desorption hysteresis in organic pollutant and soil/sediment interaction. Environmental Science & Technology 28:859–867
Kan A. T., G. Fu, M. A. Hunter, M. B. Tomson. 1997. Irreversible adsorption of naphthalene and tetrachlorobiphenyl to Lula and Surrogate Sedments. Environmental Science & Technology 31:2176–2185.
Kulatilake P. H. S. W., B. B. Panda. 2000. Effect of block size and joint geometry on jointed rock hydraulics and REV. ASCE Journal of Engineering Mechanics 126:850–858
Macdonald J. A., M. C. Kavanaugh. 1994. Restoring contaminated groundwater: an achievable goal? Environmental Science & Technology 28:362A–368A
Martin-Fernandez S., E. Martinez-Falero, J. M. Perez-Gonzalez. 2002. Optimization of the resources management in fighting wildfires. Environmental Management 30:352–364
National Research Council. 1994. Alternatives for ground water cleanup. National Science Press, Washington, DC
Nema A. K., P. M. Modak. 1998. A strategic design approach for optimization of regional hazardous waste management systems. Waste Management & Research 16:210–224
Panda B. B., P. H. S. W. Kulatilake. 1999a. Influence of discontinuity geometry parameters and transmissivity on hydraulic behavior of discontinuous rock. ASCE Journal of Engineering Mechanics 125:41–50
Panda B. B., P. H. S. W. Kulatilake. 1999b. Relations between fracture tensor parameters and permeability tensor parameters for discontinuous rock. ASCE Journal of Engineering Mechanics 125:51–59
Pavlostathis S. P., K. Jaglal. 1991. Desorptive behavior of trichloroethylene in contaminated soil. Environmental Science & Technology 25:274–279
Pignatello J. P., B. Xing. 2000. Mechanisms of slow sorption of organic chemicals to natural particles. Environmental Science & Technology 29:1–10
Reisch, M. 1997. Superfund reauthorization issues in the 105th Congress. Congressional Research Service Reports IB95013, The Library of Congress
U.S. Environmental Protection Agency. 1990. The national water quality inventory. 1988 Report to Congress
U.S. Environmental Protection Agency. 1992. Final State comprehensive ground water protection program guidance. EPA 100-R-93-001
U.S. Environmental Protection Agency. 1999. Waste research strategy. EPA/600/R-98/154
U.S. Environmental Protection Agency. 2003. Multimedia, Multipathway, and Multireceptor Risk Assessment (3MRA) modeling system, Volume I: Modeling system and science. EPA530-D-03-001a
Wang, M. 2000. Investigation of hydraulic behaviors for fluid flow in fractured rocks based on fracture geometry parameters. EoS Transactions, 2000 Fall Meeting, American Geophysical Union, San Francisco, California. 81(48): F409
Wang M., P. H. S. W. Kulatilake, B. Panda, M. L. Rucker. 2001. Groundwater resources evaluation case study via fracture fluid flow modeling. International Journal of Engineering Geology 62:267–291
Wang M., P. H. S. W. Kulatilake, J. Um, J. Narvaiz. 2002. Estimation of REV size and three dimensional hydraulic conductivity tensor for a fractured rock mass through a single well packer test and discrete fracture fluid flow modeling. International Journal of Rock Mechanics and Mining Sciences 39:887–904
Westinghouse Savannah River Company. 2004. Baseline natural attenuation processes: lines of inquiry supporting monitored natural attenuation of chlorinated solvents. WSRC-TR-2003-00329, Westinghouse Savannah River Company. Aiken, SC
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The author acknowledges Dr. Elizabeth Butler, Dr. Jerome Cruz, and other reviewers of this article for their critical comments and suggestions.
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Wang, M. Optimal Environmental Management Strategy and Implementation for Groundwater Contamination Prevention and Restoration. Environmental Management 37, 553–566 (2006). https://doi.org/10.1007/s00267-003-0299-4
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DOI: https://doi.org/10.1007/s00267-003-0299-4