Advanced SearchSearch Tips
Effect of Coverings on the Growth of Ginseng and the Persistency of Procymidone in Growing Soils
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Effect of Coverings on the Growth of Ginseng and the Persistency of Procymidone in Growing Soils
Kim, Hyo-Kun; Lee, Kyu-Seung;
  PDF(new window)
Ginseng (Panax ginseng C. A. Meyer) has been cultivated on raised beds with shading condition for 4 to 6 years because of its physiological characteristics. This shading condition maintains relatively stable soil environments protecting from rainfall and direct sunlight. Therefore, pesticides in ginseng growing soil are exposed to far different environment from the general cropping field. To study the behavior of pesticides under this condition, the effect of covering on the persistency of Procymidone in ginseng cultivating soil was investigated by using several shade materials. The most important factor affecting Procymidone persistency in soil under covering was water leakage rates of shade materials.
ginseng;procymidone;persistency;shading material;
 Cited by
홍삼 가공중 azoxystrobin, fenhexamid 및 cyprodinil농약의 감소율,임무혁;권광일;박건상;이경진;장문익;윤원갑;최우종;유광수;홍무기;

한국식품과학회지, 2007. vol.39. 5, pp.575-579
국내산 인삼 가공과정 중 difenoconazole의 가공 및 감소계수 연구,김종걸;박홍열;양규완;김성수;권찬혁;정연호;허장현;

한국식품과학회지, 2011. vol.43. 3, pp.263-270 crossref(new window)
살균제 Procymidone의 토양 중 동태,최규일;성기용;김정규;

한국환경농학회지, 2005. vol.24. 2, pp.123-131 crossref(new window)
인삼 재배토양에서의 Procymidone 흡착 및 분해,김효근;이윤환;이규승;

한국환경농학회지, 2002. vol.21. 4, pp.286-290 crossref(new window)
인삼 가공 중 잔류농약의 감소계수연구 ( I ),임무혁;권광일;박건상;최동미;장문익;정지윤;이경진;윤원갑;홍무기;우건조;

농약과학회지, 2006. vol.10. 1, pp.22-27
세척방법에 따른 양파껍질추출물의 Quercetin수율 및 잔류농약 제거효과,정은정;차용준;

생명과학회지, 2012. vol.22. 12, pp.1665-1671 crossref(new window)
Evaluation of Residual Pesticides in Fresh Ginseng Collected in Seoul,Kim, Tae-Rang;Park, Ki-Hwan;Jang, Mi-Ra;Choi, Young-Hee;Kim, Eun-Hee;Choi, Chae-Man;Park, Sung-Kyu;Yu, In-Sil;Hwang, In-Sook;Han, Ki-Young;Kim, Moo-Sang;Kim, Jung-Hun;Chae, Young-Zoo;

Journal of Applied Biological Chemistry, 2013. vol.56. 1, pp.29-35 crossref(new window)
스토리텔링을 활용한 호남지역 장수밥상 콘텐츠 개발 - 전북 진안·전남 구례군 중심으로 -,김미혜;정혜경;

한국식생활문화학회지, 2013. vol.28. 2, pp.145-157 crossref(new window)
Residual Characteristics and Behavior of Azoxystrobin in Ginseng by Cultivation Conditions, The Korean Journal of Pesticide Science, 2015, 19, 1, 14  crossref(new windwow)
Processing and Reducing Factors of Difenoconazole during Ginseng Processing, Korean Journal of Food Science and Technology, 2011, 43, 3, 263  crossref(new windwow)
Reduction in Residual Pesticides and Quercetin Yields in Onion Peel Extracts by Washing, Journal of Life Science, 2012, 22, 12, 1665  crossref(new windwow)
Multiresidue pesticide analysis in Korean ginseng by gas chromatography–triple quadrupole tandem mass spectrometry, Food Chemistry, 2012, 134, 4, 2497  crossref(new windwow)
Pesticide Residue Rapid Extraction from Ginseng Tea Using a Modified Luke Method for GC–MS, Food Analytical Methods, 2016, 9, 8, 2231  crossref(new windwow)
Evaluation of Residual Pesticides in Fresh Ginseng Collected in Seoul, Journal of Applied Biological Chemistry, 2013, 56, 1, 29  crossref(new windwow)
Streamlined pretreatment and GC–FPD analysis of multi-pesticide residues in perennial Morinda roots: A tropical or subtropical plant, Chemosphere, 2014, 95, 33  crossref(new windwow)
Development of Local Food Content in Jinan-Gun and Gurye-Gun through Storytelling, Journal of the Korean Society of Food Culture, 2013, 28, 2, 145  crossref(new windwow)
한국인삼연초연구원 (1993) 고려인삼, p.288

천성기 (1989) 광량 및 광질이 고려인삼의 생육과 품질에 미치는 영향, 경북대학교 박사학위 논문

목성균, 천성기, 이성식, 신동양, 이장은 (1984) 인삼의 최적환경조성 및 해가림 자재 개발연구, 인삼연구보고서(재배분야), 한국인삼연초연구소

김영호, 유연현, 조대휘, 오승환 (1990) 해가림 종류가 인삼점무늬병 발생과 수량에 미치는 영향, 한국식물병리학회지, 6(1), 42-50

목성균, 천성기, 이태수 (1990) 인삼의 재배환경조건 개선 및 생력재배연구, 인삼연구보고서(재배분야), 한국인삼연초연구소, p.341-431

목성균, 천성기, 이성식, 이태수 (1994) 해가림 피복물의 색상이 고려인삼의 생육 및 saponin 함량에 미치는 영향, 고려인삼학회지, 18(3), 182-186

Cheng, H. H. (1990) Pesticides in the soil environment:Processes, Impacts, and Modeling, Soil Science Society of America, Inc., WI, p.530

한국인삼연초연구원 (1996) 최신고려인삼(재배편), p.355

Hesse, P. R. (1972) A textbook of soil chemical analysis, Chemical Publishing Co., Inc., p.17

Walker, A. (1987) Further observations on the enhanced degradation of iprodione and vinclozolin in soil, Pestic. Sci. 21, 219-231 crossref(new window)

Slade, E. A., Fullerton, R. A., Stewart, A. and Young H. (1992) Degradation of the dicarboximide fungicides iprodione, vinclozolin and Procymidone in Patumahoe clay loam soil, New Zealand, Pestic. Sci. 35, 95-100

이종화외 7인 (1983) 인삼의 영양생리에 관한 연구, 인삼연구보고서(재배분야), 한국인삼연초연구소, p.15-40

정필균, 고문환, 엄기태 (1985) 토양유실량 예측을 위한 작부인자 검토, 한국토양비료학회지, 18(1), 7-13

Mikami, N., Imanishi, K., Yamada, H. and Miyamoto J. (1984) Photolysis and hydrolysis of the fungicide Procymidone in water, J. Pestic. Science, 9, 223-228 crossref(new window)

Edwards, C. A. (1966) Insecticide residues in soils, Residue Review, 13, 83-132 crossref(new window)

Hurle, K. and A. Walker (1980) Interactions between herbicides and the soil, R. J. Hance, (Ed), Academic Press, London. p.83-122

Suett, D. L. (1971) Persistence and degradation of chlorfenvinphos, diazinon, fonofos and phorate in soils and their uptake by carrots, Pestic. Sci. 2, 105-112 crossref(new window)

Suett, D. L. (1975) Persistence and degradation of chlorfenvinphos, chloremphos disulfoton, phorate and pirimiphos- ethyl following spring and late-summer soil application, Pestic. Sci. 6, 385-393 crossref(new window)