Pesticide Multiresidues Analysis of Environmental-friendly Agricultural Soils by the Complex Cleanup Method of Accelerated Solvent Extraction (ASE) and Solid Phase Extraction (SPE) |
Moo, Kyung-Mi
(National Agricultural Products Quality Management Service Gyungnam provincial Office)
Park, Jin-Woo (Incheon Public Procurement Service) Lee, Young-Guen (Department of Food Science and Technology, Pusan National University) Choi, Young-Whan (Horticultural Bioscience, College of Natural Resources and Life Science, Pusan National University) |
1 | An, X. H., W. H. An, I. B. Im, S. B. Lee, and J. G. Kang. 2006. Persistence of fungicide pencycuron in soils. The Korean J. Pesticide Sci. 10: 296-305. |
2 | ASE 200. 1995. Accelerated Solvent Extractor Operator's Manual, Document No. 031149, Revision 01, Dionex, Sunnyvale, CA, Sect. 3-5. |
3 | Chen, S., X. Yu, X. He, D. Xie, Y. Fan, and J. Peng. 2009. Simplified pesticide multiresidues analysis in fish by low-temperature cleanup and solid-phase extraction coupled with gas chromatography/mass spectrometry. Food Chem. 113: 1297-1300. DOI ScienceOn |
4 | DeLorenzo, M. E., L. A. Taylor, S. A. Lund, P. L. pennington, E. D. Strozier, and M. H. Fulton. 2002. Toxicity and bioconcentration potential of the agricultural pesticide endosulfan in phytoplankton and zooplankton. Arch. Environ. Contam. Toxicol. 42: 173-181. DOI ScienceOn |
5 | FAO, 2000. Joint FAO/WHO food standards programme. Codex Alimentarius commission, pesticide residues in food-methods of analysis and sampling, 2A: 39-47. |
6 | FDA, 1994. Pesticide analytical manual. Vol. I. Multiresidue Methods. 3rd ed., FDA, Washington DC. |
7 | FDA, 1994. Pesticide analytical manual. Vol. I. Section 103: Method Application In Regulatory Analysis. 3rd ed., FDA, Washington DC. |
8 | Hyun, H. N., G. M. Jang, S. S. Oh, and J. B. Chung. 2007. Evaluation of groundwater contamination potential of pesticides using groundwater ubiquity score in Jeju island soils. Korean J. Pesticide Sci. 11:144-153. |
9 | Jeong, J. Y. 2006. Necessity of practicing the environment-friendly organic agriculture. Food Sci. & Industry. 39: 4-8. |
10 | Karazafiris, E., U. Menkissoglu-Spiroudi, and A. Thrasyvoulou. 2008. New multiresidue method using solid-phase extraction and gas chromatography-microelectron- capture detection for pesticide residues analysis in royal jelly. J. Chrom. A. 1209: 17-21. DOI |
11 | Kaur, I., R. P. Mathur, S. N. Tandon, and P. Dureja. 1998. Persistence of endosulfan (technical) in water and soil. Environ. Pollut. 79: 77-83. |
12 | Ken, G. D. 1992. Foliar and nontarget deposition from conventional and reduce volume-Pesticide application in greenhouses. J. Agri. Food Chem., 40: 2510-2516. DOI |
13 | Kim, I. S. and I. S. Kim. 2009. Status and future prospects of pest control agents in environmentally -friendly agriculture, and importance of their commercialization. Korean J. Environ. Agri. 28: 301- 309. DOI |
14 | Kim, K. D. and Y. C. Seo. 2009. Evaluation of organochlorine pesticides extraction efficiency by ASE pretreatment. J. Korean Soc. Environ. Anal. 12: 144- 149. |
15 | Lee, J. H., Y. H. Jeon, K. S. Shin, H. Y. Kim, E. J. Park, T. H. Kim, and J. E. Kim. 2009. Biological half-lives of fungicides in Korean melon under greenhouse condition. Korean J. Environ. Agricul. 28: 419-426. DOI |
16 | Lee, J. M., H. R. Lee, and S. M. Nam. 2003. Removal rate of residual pesticides in perilla leaves with various washing methods. Korean J. Food Sci. Tech. 35: 586-590. |
17 | Lee, K. B., J. H. Shim, and Y. T. Suh. 1994. In vivo metabolism of endosulfan in carp (Cyprinus carpio L.). Agri. Chem. & Biotech. 37: 194-202. |
18 | Pereira, L. A. and S. Rath. 2009. Molecularly imprinted solid-phase extraction for the determination of fenitrothion in tomatoes. Anal. & Bioanal. Chem. 393: 1063-1072. DOI ScienceOn |
19 | Lee, S. M., S. S. Kim, D. S. Park, and J. H. Hur. 2005. Mobility of pesticides in different soil textures and gravel contents under soil column. The Korean J. Pesticide Sci. 9: 330-337. |
20 | Park, B. J., H. J. Park, B. M. Lee, Y. B. Ihm, J. H. Choi, and G. H. Ryu. 2005. Persistence and degradation of herbicide molinate in paddy-soil environment. The Korean J. Pesticide Sci. 9: 60-69. |
21 | Philip, W. Lee, 2003, Handbook of residue analytical methods for agrochemicals. 1: 13-17. |
22 | Ryang, H. S., Y. H. Moon, and N. E. Kim. 1988. Studies on persistence of pesticides in soils and crops under polyethylene film mulching culture. Korean J. Environ. Agric. 7: 8-11. |
23 | Seo, Y. C., M. K. Heo, S. Y. Kim, J. E. Shin, Y. H. Park, and K. D. Kim. 2008. Efficiency evaluation of organophosphorus pesticides analysis by ASE pre-treatment technique and its application to vegetable samples. J. Korean Soc. Environ. Anal. 11: 1-5. |
24 | Shin, H. S., T. K. Kim, and J. E. Kim. 2009. Dechlorination of organochlorine insecticide, endosulfan by zerovalent iron. Korean J. Environ. Agri. 28: 202-208. DOI |
25 | Yoo, S. H. 1999. Perspectives of sustainable agriculture in Korea. Proceedings of International Symposium on Farm Mechanization for Environment Friendly Agriculture. Korean Soc. of Agri. Machin. 139-163. |