Estimating Concentrations of Pesticide Residue in Soil from Pepper Plot Using the GLEAMS Model |
Jin, So-Hyun
(Rural & Bio-Systems Engineering, College of Agriculture and Life Science, Chonnam National University)
Yoon, Kwang-Sik (Rural & Bio-Systems Engineering, College of Agriculture and Life Science, Chonnam National University) Shim, Jae-Han (Natural Products Chemistry Laboratory, College of Agriculture and Life Science, Chonnam National University) Choi, Woo-Jung (Rural & Bio-Systems Engineering, College of Agriculture and Life Science, Chonnam National University) Choi, Dong-Ho (Rural & Bio-Systems Engineering, College of Agriculture and Life Science, Chonnam National University) Kim, Bo-Mi (Natural Products Chemistry Laboratory, College of Agriculture and Life Science, Chonnam National University) Lim, Sang-Sun (Rural & Bio-Systems Engineering, College of Agriculture and Life Science, Chonnam National University) Jung, Jae-Woon (Yeongsan River Environment Research Center) Lee, Kyoung-Sook (Rural & Bio-Systems Engineering, College of Agriculture and Life Science, Chonnam National University) Hong, Su-Myeong (Chemical Safety Division, National Academy of Agricultural Sciences) |
1 | Smith, M.C., Bottcher, A.B., Campbell, K.L., Thomas, D.L., 1991. Field Testing and Comparison of the PRZM and GLEAMS Models, American Society of Agricultural Engineers . 34(3), 838-847. DOI |
2 | Truman, C.C., Leonard, R.A., 1991. Effects of Pesticide, Soil, and Rainfall Characteristics on Potential Pesticide Loss by Percolation a GLEAMS Simulation, ASAE, 34(6), 2461-2468. DOI |
3 | Wade, H.F., York., A.C., Morey., A.E., Padmore, J.M., Rudo, K.M., 1998. The impact of pesticide use on groundwater in North Carolina, J. Enciron. Qual . 27(5), 1018-10296 |
4 | Carsel, R.F., Smith, C.N., Mulkey, L.A., Dean, J.D., Jowise, P., 1984. User's manual for the Pesticide Root Zone Model(PRZM), EPA/600/3-84-109, U.S. EPA, Athens, GA, 30605. |
5 | Chung, S.O., Park, K.J., Son, S.H., 2008. Scenario-Based Exposure Risk Assessment of Molinate in a Paddy Plot: (1) Analysis of simulation results, Journal of the Korean society of agricultural engineers . 50(2), 11-16. 과학기술학회마을 DOI ScienceOn |
6 | Connolly, R,D., Kennedy, I.R., Silburn, D.M., Simpson, B.W., Freebairn, D.M., 2001. Simulating Endosulfan Transport in Runoff from Cotton Fields in Australia with the GLEAMS Model, Journal of Environmental Quality . 30, 702-713. DOI ScienceOn |
7 | Dann, R.L., Close, M.E., Lee, R., Pang, L., 2006. Impact of Data Quality and Model Complexity on Prediction of Pesticide Leaching, Journal of Environmental Quality . 35, 628-640. DOI ScienceOn |
8 | Greenberg, R.S., 1981. Determination of Fenvalerate, a Synthetic Pyrethroid, in Grapes, Peppers, Apples and Cottonseeds by Gas Liquid Chromatography, Journal of Agriculture Food Chemistry . 29, 856-860. DOI |
9 | Khang, J.G., Suh, Y.T., Shim, J.H., 1986. Persistence of Fenvalerate Treated on Pepper plants and Soil. Rural Development Review, 21, pp. 9-15. |
10 | Khang, J.G., Kim, S.K., Kim, J.K., Lee, D.B., Lee, K.S., 1994. Study on fate and decaying pattern of Endosulfan in soil, Korean Society of Agricultural Chemistry and Biotechnology, pp. 155. |
11 | Kim, H.S., Chung, S.O., 1995. Application of GELAMS to Predict Pesticide Losses from Field, Journal of Environmental Science, 9, pp. 189-202. |
12 | Knisel, W.G., 1993. GLEAMS: Groundwater Loading Effects of Agricultural Management Systems, Version 2.10. Biological, Version 2.10. Biological and Agricultural Engineering Department, University of Georgia, Coastal Plain Experiment Station, Tifton, BAED Publ, 5, pp. 260. |
13 | Woodrow, J.E., Seiber, J.N., Dary, C., 2001. Predicting pesticide emissions and downwind concentrations using correlations with estimated vapor pressures, Journal of Agricultural and Food Chemistry . 49(8), 3841-3846. DOI ScienceOn |
14 | Yuan, Y., Mitchell, J.K., Walker, S.E., Hirschi, M.C., Cooke, R.A.C., 2000. Atrazine Losses From Corn Field in the Little Vermilion River Watershed in East Central Illinois, American Society of Agricultural Engineers . 16(1), 51-56. |
15 | Leonard, R.A., Knisel, W.G., Stil, D.A., 1987. GLEAMS : Groundwater Loading Effects of Agricultural Management Systems, Transsactions of ASAE. 30(5), 1403-1418. DOI |
16 | Malone, R.W., Warner, R.C., Workman, S.R., Byers, M.E., 1999. Modeling Surface and Subsurface Pesticide Transport under Three Field Conditions Using PRZM-3 and GLEAMS, American Society of Agricultural Engineers . 42(5), 1275-1287. DOI |
17 | Malone, R.W., Ahuja, L.R., Ma, L., Wauchope, R.D., Ma, Q., Rojas, K.W., 2004. Application of the Root Zone Water Quality Model (RZWQM) to pesticide fate and transport: an overview, Pesticide Management Science . 60, 205-221. DOI ScienceOn |
18 | NRCS, 1997, Water quality: Pesticides. Available website Nature Resource Conservation Service, 1997. Water quality: Pesticides [Online]. Available HTTP. http://www.nhq.nrcs.usda.gov/land/env/ wq3.html [1997, October 12] |
19 | Rekolainen, S., Gouy, Y., Francaviglia, R., Eklo, O.M., Barlund, I., 2000. Simulation of soil water, bromide and pesticide behavior in soil with the GLEAMS model, Agricultural Water Management . 44, 201-224. DOI ScienceOn |
20 | Sadeghi, A., Isensee, A.R., 1994. Spatial distribution of atrazine residues in soil and shallow groundwater: effect of tillage and rainfall timing, Agriculture, Ecosystems and Environment . 48, 67-76. DOI ScienceOn |