Browse > Article
http://dx.doi.org/10.7783/KJMCS.2015.23.3.223

Inhibition Effect on Root Rot Disease of Panax ginseng by Crop Cultivation in Soil Occurring Replant Failure  

Lee, Sung Woo (Ginseng Research Division, Department of Herbal Crop Research, NIHHS, RDA)
Lee, Seung Ho (Ginseng Research Division, Department of Herbal Crop Research, NIHHS, RDA)
Park, Kyung Hoon (Ginseng Research Division, Department of Herbal Crop Research, NIHHS, RDA)
Lan, Jin Mei (Ginseng Research Division, Department of Herbal Crop Research, NIHHS, RDA)
Jang, In Bok (Ginseng Research Division, Department of Herbal Crop Research, NIHHS, RDA)
Kim, Ki Hong (Ginseng Research Division, Department of Herbal Crop Research, NIHHS, RDA)
Publication Information
Korean Journal of Medicinal Crop Science / v.23, no.3, 2015 , pp. 223-230 More about this Journal
Abstract
To study the effect of crop rotation on the control of ginseng root rot, growth characteristics and root rot ratio of 2-year-old ginseng was investigated after the crops of 18 species were cultured for one year in soil contaminated by the pathogen of root rot. Fusarium solani and Cylindrocarpon destructans were detected by 53.2% and 37.7%, respectively, from infected root of 4-year-old ginseng cultivated in soil occurring the injury by continuous cropping. Content of $NO_3$, Na, and $P_2O_5$ were distinctly changed, while content of pH, Ca, and Mg were slightly changed when whole plant of crops cultured for one year were buried in the ground. All of EC, $NO_3$, $P_2O_5$, and K were distinctly increased in soil cultured sudangrass, peanut, soybean, sunnhemp, and pepper. All of EC, $NO_3$, $P_2O_5$, and K among inorganic component showed negative effect on the growth of ginseng when they were excessively applied on soil. The growth of ginseng was promoted in soil cultivated perilla, sweet potato, sudangrass, and welsh onion, while suppressed in Hwanggi (Astragalus mongholicus), Deodeok (Codonopsis lanceolata) Doraji (Platycodon grandiflorum), Gamcho (Glycyrrhiza uralensis), Soybean. All of chicory, lettuce, radish, sunnhemp, and welsh onion had effective on the inhibition of ginseng root rot, while legume such as soybean, Hwanggi, Gamcho, peanut promoted the incidence of root rot. Though there were no significant correlation, $NO_3$ showed positive correlation, and Na showed negative correlation with the incidence of root rot.
Keywords
Crop Rotation; Cylindrocarpon destructans; Panax ginseng; Root Rot;
Citations & Related Records
Times Cited By KSCI : 11  (Citation Analysis)
연도 인용수 순위
1 Ahn YJ, Kim HJ, Ohh SH and Choi SY. (1982). Effect of soil fumigation on growth, root rot, and red discoloration of Panax ginseng in replanted soils. Korean Journal of Ginseng Science. 6:46-55.
2 Booth CD. (1966). The genus Cylindrocarpon. Mycology paper No. 104:1-56.
3 Cho DH, Yu YH, Oh SH and Lee HS. (1997). Effect of carbon and nitrogen source on the mycelial growth and sporulation of Cylindrocarpon destructans causing root rot of Panax ginseng. Research in Plant Disease. 13:30-36.
4 Cohen MF, Yamasaki H and Mazzola M. (2005). Brassica napus seed meal soil amendment modifies microbial community structure, nitric oxide production and incidence of Rhizoctonia root rot. Soil Biology and Biochemistry. 37:1215-1227.   DOI
5 Hashem M, Moharam AM, Zaied AA and Saleh FEM. (2010). Efficacy of essential oil in the control of cumin root rot disease caused by Fusarium spp. Crop Protection. 29:1111-1117.   DOI
6 Hyun DY, Yeon BY, Lee SW, Kang SW, Hyun GS, Kim YC, Lee KW and Kim SM. (2009). Analysis of occurrence type of physiological disorder to soil chemical components in ginseng cultivated field. Korean Journal of Crop Science. 17:439-444.
7 Jang IB, Hyun DY, Lee SW, Kim YC, Kim JW, Park KC, Bang KH and Kim KH. (2013). Analysis of growth characteristics and physiological disorder of Korean ginseng affected by application of manure in paddy-converted field. Korean Journal of Medicinal Crop Science. 21:380-387.   DOI   ScienceOn
8 Kang SW, Yeon BY, Hyeon GS, Bae YS, Lee SW and Seong NS. (2007). Changes of soil chemical properties and root injury ratio by progress years of post-harvest in continuous cropping soils of ginseng. Korean Journal of Medicinal Crop Science. 15:157-161.
9 Kim CH, Cho WD and Kim HM. (2000). Some environment factors affecting germination and survival spores of Plasmodiophora brassicae. Korean Journal of Pesticide Science. 4:66-71.
10 Kim DW, Kim JY, You DH, Kim CS, Kim HJ, Park JS, Kim JM, Choi DC and Oh NK. (2014). Effect of cultivation using plastic-film house on yield and quality of ginseng in paddy field. Korean Journal of Medicinal Crop Science. 22:210-216.   DOI
11 Lee JC, Kim HJ and Oh SH. (1989). Review of studies on ginseng replanting problems. Korean Society of Cop Science(Disaster physiology). 1:115-120.
12 Lee IH, Park CS, Yu YH and Yuk CS. (1985). Studies on the soil management in ginseng preplanting soil (II). Relationship between the soil characteristics of 2-year-old ginseng field soil and the ratio of missing plant. Korean Journal of Ginseng Science. 9:36-41.
13 Lee IH, Yuk CS and Park H. (1989). Yield and missing plant rate of Panax ginseng affected by the annual change in physico-chemical properties of ginseng cultivated soil. Korean Journal of Soil Science and Fertilizer. 22:18-24.
14 Lee JH, Byeon JH, Lee JH, Park CG, Park CB and Cho JH. (2012). Alleopathic effect of Ganghwa mugwort(Artemisia spp.) on seed germination and seedling growth of plants. Korean Journal of Organic Agriculture. 20:589-605.   DOI   ScienceOn
15 Lee JS, Han KS, Lee SC, Soh JW and Kim DW. (2014a). Environmental factors on the development of root rot on ginseng caused by Cylindrocarpon destructans. Research in Plant Disease. 20:87-94.   DOI
16 Liorach R, Martinez-Sanchez A, Tomas-Barberan FA, Gil MI and Ferreres F. (2008). Characterization of polyphenols and antioxidant properties of five lettuce varieties and escarole. Food Chemistry 108:1028-1038.   DOI
17 Lee SG. (2004). Fusarium species associated with ginseng(Panax ginseng) and their role in the root-rot of ginseng plant. Research in Plant Disease. 10:248-259.   DOI   ScienceOn
18 Lee SW, Lee SH, Park KH, Jang IB, Jin Mei Lan and Kim KH. (2014b). Effect of irrigation of sulfur solution before sowing on growth and root rot disease of seedling in ginseng nursery. Korean Journal of Medicinal Crop Science. 22:391-397.   DOI
19 Lee SW, Park KC, Lee SH, Park JM, Jang IB and Kim KH. (2013). Soil chemical property and leaf mineral nutrient of ginseng cultivated in paddy field occurring leaf discoloration. Korean Journal of Medicinal Crop Science. 21:289-295.   DOI   ScienceOn
20 Mansour SA, Ibrahim RM and EI-Gengaihi SE. (2014). Insecticidal activity of chicory(Cichorium intybus L.) extracts against two dipterous insect-disease vectors: Mosquito and housefly. Industrial Crops and Products. 54:192-202.   DOI
21 National Institute of Agricultural Science and Technology (NIAST). (2000). Methods of soil chemical analysis. National Institute of Agricultural Science and Technology. RDA. Suwon, Korea. p.89-93.
22 Nicol RW, Yousef FL, Traquair JA and Bernards AM. (2003). Ginsenosides stimulate the growth of soilborne pathogens of American ginseng. Phytochemistry. 64:257-264.   DOI
23 Oh YJ, Kang SB, Song YI, Choi JH and Paik WK. (2012). Effects of cover plants on soil microbial community in organic apple orchards. Korean Journal of Soil Science and Fertilizer. 45:822-828.   DOI
24 Rahman M, and Punja ZK. (2005). Factors influencing development of root rot on ginseng caused by Cylindrocarpon destructans. Phytopathology. 95:1381-1390.   DOI
25 Pearse IS, Bastow JL and Tsang A. (2014). Radish introduction affects soil biota and has a positive impact on the growth of a native plant. Oecologia. 174:471-478   DOI
26 Proctor RH., Hohn TM and McCormick SP. (1995) Reduced virulence of Gibberella zeae caused by disruption of a trichothecene toxin biosynthetic gene. Molecular Plant-Microbe Interaction. 8:593-601.   DOI
27 Punja ZK. (1997). Fungal pathogens of American ginseng(Panax quinquefolium) in British Columbia. Canadian Journal of Plant Pathology. 19:301-306.   DOI
28 Seo JH and Lee HJ. (2005). Effect of hairy vetch green manure on nitrogen enrichment in soil and corn plant. Korean Journal of Soil Science and Fertilizer. 38:211-217.
29 Seo JS and Lee SK. (1993). Competitive effects of allelochemics on the monoculture and cross-cropping culture system of plants. Korean Journal of Soil Science and Fertilizer. 26:259-264.
30 Shin HS, Lee HH and Lee MW. (1985). Studies on the distribution of fungal and Fusarium spp. propagules in ginseng field soil. Mycobiology. 14:109-119.
31 Street AR, Sidana J and Prinsloo G. (2014). Cichorium intybus: Traditional uses, phytochemistry, pharmacology, and toxicology. Evidence-Based Complementary and Alternative Medicine. 2013:1-13.
32 Sun J, Fu J, Zhou R and Yan X. (2013). Antibiotic effects of four exogenous phenolic acids on soilborne pathogen, Cylindrocarpon destructans. Applied Mechanics and Materials.295-298:2294-2299.
33 Yang SS, Kim CH and Nam KW. (2000). Effect of soil salinity on the root growth and Fusarium disease of tomato and cucumber. Research in Plant Disease. 6:71-75.
34 Uhm MJ, Han SG, Kim KC, Moon YH and Choi JS. (2001). Properties of plastic film house soils and physiological disorder of eggplant. Korean Journal of Soil Science and Fertilizer. 34:192-198.
35 Wang Q, Xie B, Wu C, Chen G, Wang Z, Cui J, Hu T and Wiatrak P. (2012). Models analyses for allelopathic effects of chicory at equivalent coupling of nitrogen supply and pH level on F. arundinacea, T. repens and M. sativa. Plos One. 7:1-10.
36 Wang KH, Mcsorley R and Gallaher RN. (2004). Effect of Crotalaria juncea amendment on squash infected with Meloidogyne incognita. Journal of Nematology. 36:290-296.
37 Yousef FL and Bernards AM. (2006). In vitro metabolism of ginsenosides by the ginseng root pathogen Pythium irrgulare. Phytochemistry. 67:1740-1749.   DOI