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http://dx.doi.org/10.4491/eer.2008.13.3.107

A Pesticide Residue Risk Assessment from Agricultural Land Using GIS  

Lee, Ju-Young (Department of Civil and Environmental Engineering, Seoul National University)
Krishina, Ganeshy (Department of Water and Wastewater Management, Glenn Engr. Corp.)
Han, Moo-Young (Department of Civil and Environmental Engineering, Seoul National University)
Yang, Jung-Seok (KIST-Gangneung, Natural Products Center)
Choi, Jae-Young (KIST-Gangneung, Natural Products Center)
Publication Information
Environmental Engineering Research / v.13, no.3, 2008 , pp. 107-111 More about this Journal
Abstract
Water quality contamination issues are of critical concern to human health, whilst pesticide release generated from irrigated land should be considered for protecting natural habitats and human health. This paper suggests new method for evaluation and analysis using the GIS technique based on integrated spatial modeling framework. The pesticide use on irrigated land is a subset of the larger spectrum of industrial chemicals used in modern society. The behavior of a pesticide is affected by the natural affinity of the chemical for one of four environmental compartments; solid matter, liquid, gaseous form, and biota. However, the major movements are a physical transport over the ground surface by rainfall-runoff and irrigation-runoff. The irrigated water carries out with the transporting sediments and makes contaminated water by pesticide. This paper focuses on risk impact identification and assessment using GIS technique. Also, generated data on pesticide residues on farmland and surface water through GIS simulation will be reflected to environmental research programs. Finally, this study indicates that GIS application is a beneficial tool for spatial pesticide impact analysis as well as environmental risk assessment.
Keywords
GIS; Pesticide;
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  • Reference
1 Bowman, K. P., "Large-scale isentropic mixing properties of the Antarctic polar vortex from analyzed winds," J. Geophys. Res., 98, 23013-23027 (1993)
2 Gunier, R. D., Hertz, A., Von Behren, J., and Reynolds, P., "Traffic density in California: Socioeconomic and ethnic differences among potentially exposed children," J. Expo Anal. Environ. Epidemiol., 13, 240-248 (2003)   DOI   ScienceOn
3 Donaldson, D., Kiely, T., and Grube, A., Pesticide industry sales and usage: 1998 and 1999 market estimates, USEPA, Washington DC. (2002)
4 Worthing, C. R., The Pesticide Manual: A world compendium (8th ed.), British Crop Protection Council (1987)
5 Kidd, H. and James, D. R., The agrochemicals Handbook, Third Edition. Royal Society of Chemistry Information Services, Cambridge, UK. (1991)
6 United States Department of Agriculture, SCS/ARS/CES Pesticides Database: Version 2.0 (Summary). USDA Soil Conservation Service, New York (1990)
7 Ebert, E., Leist, K. H., Hack, R., and Ehling, G., "Toxicology and hazard potential of trifluralin," Food. Chem. Toxicol., 12, 1031-1044 (1992)
8 United States Census Bureau News, Population Growth, Census Bureau Reports., Washington, D.C. (2005)
9 Wauchope, R. D., Buttler, T. M., Hornsby, A. G., Augustjin- Brcker, P.W., and Burt, J. P., "SCS/ARS/CES pesticide properties database for environmental decision-making," Rev. Environ. Contam. T., 123, 1-155 (1992)
10 Croner, C. M., Sperling, J., and Broome, F. R., "Geographic information systems (GIS): New perspectives in understanding human health and environmental relationships," Stat. Med., 15, 1961-1977 (1996)   DOI
11 Goodrich, J. A., Benjamin, W. L., and Eobert, M. C., "Drinking water from agriculturally contaminated groundwater," J. Environ. Qual., 20, 707-717 (1991)   DOI
12 Guy Fipps, and Craig Pope, Implementation of a district management system in the Lower Rio Grande Valley of Texas, Annual report (1998)
13 Antunes, P., Santos, R., and Jordao, L., "The application of geographic information systems to determine environmental impact significance," Environ. Impact. Assess. Rev., 21, 511-535 (2001)   DOI   ScienceOn
14 WSSA Herbicide Handbook Committee, Herbicide Handbook of the Weed Science Society of America (6th ed.), Weed Science Society of America, Champaign (1989)
15 Occupational Health Service, Inc., MSDS for trifluralin, OHS Inc., New Jersey (1991)
16 USEPA, United States Environmental Protection Agency Guidance for the reregistration of pesticide products containing trifluralin as the active ingredient, Washington, DC. (1987)
17 The Merck Index, An encyclopedia of chemicals, drugs, and biologicals (9th ed.), Merck & Co. Inc., New Jersey (1976)
18 USEPA, United States Environmental Protection Agency Health Advisory Summary: Trifluralin, Washington, DC. (1989)