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Residual Change of Deltamethrin in Stream Water after Spaying for Pest Control of Stream Levee
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 Title & Authors
Residual Change of Deltamethrin in Stream Water after Spaying for Pest Control of Stream Levee
Han, Ye-Hun; Park, Jae-Hun; Lim, Jong-Sung; Lee, Yong-Ju; Lee, Sung-Kyu; Lee, Kyu-Seung;
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BACKGROUND: This study was performed to investigate the change of deltamethrin residue after spraying for control of hygienic insects in bush of levee at Bansuk-dong stream (A) and Juk-dong ditch (B) in Yuseong, Daejeon. The drop concentrations and disappearance of deltamethrin residue in stream water were determined to evaluate the toxic effects of stream ecosystem. METHODS AND RESULTS: Water samples were collected at 7 points including 0, 5, 10, 20, 40, 70 and 100 m downstream from the deltamethrin spraying point. Water sample was partitioned into dichloromethane, and was determined with GC/-ECD. Limit of Quantitation of deltamethrin was 0.04 . Recoveries of deltamethrin at two fortification levels of 0.4 and 2.0 were (n=3) and (n=3) in A stream, and (n=3) and (n=3) in B stream, respectively. Residue of A stream were from <0.04 to 0.48 and B stream were from 0.08 to 14.95 under practice application condition. And residues were from <0.04 to 0.2 in A stream treated deltamethrin with 1.0 mg level at the upper region. CONCLUSION(S): Practice application of deltamethrin for the pest control of waterside was not much shown toxic effect to ecosystem of stream.
Deltamethrin;Insecticide;Pyrethroid;Residual change;Stream water;
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Bradbury, S., Goel, P., Coasts, R., Mckin I.M., 1985. Differential toxicity and uptake of two fenvalerate formulations in fathead minnows (Pimephales promelas), Environ. Toxicol. Chem. 4, 533-542. crossref(new window)

David, B. V., Somasundaram, L., 1985. Synthetic pyrethroids-an evaluation of their potential effects on non-target organisms, Pesticides 19(1), 9-12.

Elliott, M., Farnham, A. W., Janes, N. F., Needham, P. H., Pulman, D. A, 1974. Synthetic insecticide with a new order of activity, Nature. 248, 5450, 710-711. crossref(new window)

Hammann, I., Fuchs, R., 1981. Baythroid, a new insecticide. Pflanzenschutz-Nachrichten Bayer 34, 121-151.

Han, S.S., Lim B.H., Lim Y.S., Choi, Y.H., 2000. Elucidation of Environmental Factors Affecting the Differences in the Half-Life of the Insecticide Cyfluthrin in Soil between Field and Laboratory Tests, J. Korean Soc. Agric. Chem. Biotechnol. 43(4), 291-297.

Jeong, Y.H., Kim, J.U., Kim, J.H., Lee, Y.D., Lim, C.H., Hur, J.H., 2004. The Modern pesticides, pp. 5, 149-151, 349-358, Sigma-press, Korea.

Kingsbury, P.D., Kreutzweiser, D.P., 1979. Impact of double applications of permethrin on forest streams and ponds. Report, Canadian Forestry Service (FPM-X-27): iv + 42 [+ 49].

Lee, S.K., Kim, Y.H., Kim, T.W., Roh, J.K., 1989. Fates of cyfluthrin and trichlorfon in water and their impacts on aquatic organisms following aerial application over the forest, Korean J. Environ. Agric. 8(1), 17-29.

Lee, S.R., Kim, Y.H., Lee, M.G., 1995. Information Resources for the Establishment of Tolerances on Pesticide Residues in Water Quality, Korean J. Environ. Agric. 14(3), 351-373.

Lee, Y.D., 2012. The pesticide Analytical Residues Manual in Food Code. pp. 3, 78-82, Korea Food & Drug Administration.

Marguire, R.H., Carey, J.H., Hart, J.H., Tkacz, R.J., Lee, H.B., 1989. Persistence and fate of deltamethrin sprayed on a pond, J. Agric. Food Chem. 37(4), 1153-1159. crossref(new window)

Narahashi, T., 1982. Cellular and molecular mechanisms of action of insecticides: neuro-physiological approach, Neurobehav. Toxicol. Teratol. 4, 753-758.

Park, K.H., Park, Y.K., Joo, J.B., Kyung, K.S., Shin, J.S., Kim, C.S., Park B.J., Uhm, J.Y., 2003. Risk Assessment of Pesticide for Earthworms, Kor. J. Pestic. Sci. 7(4), 280-287.

Park, Y.K., Bae, C.H., Kim, B.S., Lee, J.B., You, A.S., Hong, S.S., Park, K.H., Shin, J.S., Hong M.K., Lee, K.S., Lee, J.H., 2009. The Risk Assessment of Butachlor for the Freshwater Aquatic Organisms, Kor. J. Pestic. Sci. 13(1), 1-12.

Tomlin. C.D.S., 2009. The pesticide manual: A world compendium (15th edition). pp. 180-181, 465-466.

Verschoyle, R.D., Barnes, J.M., 1972. Toxicity of natural and synthetic pyrethrins to rats, Pestic Biochem Physiol 2, 308-311. crossref(new window)

Verschoyle, R.D., Aldridge, W.N., 1980. Structure-activity relationship of some pyrethroids in rats, Arch. Toxicol. 45, 325-329. crossref(new window)

Yang, J.E., Jung, J.B., Kim, J.U., Lee, K.S., 2008. The Agric-Environmental Science, pp. 237-239, 261-262, CIR, Korea.