Advanced SearchSearch Tips
Control of Soil-Borne Pathogens in Ginseng Cultivation through the Use of Cultured Green Manure Crop and Solarization in Greenhouse Facilities
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Control of Soil-Borne Pathogens in Ginseng Cultivation through the Use of Cultured Green Manure Crop and Solarization in Greenhouse Facilities
Lee, Sung Woo; Lee, Seung Ho; Lan, Jin Mei; Park, Kyung Hoon; Jang, In Bok; Kim, Ki Hong;
  PDF(new window)
Background: Root diseases caused by Cylindrocarpon destructans and Fusarium solani decrease the yield and quality of ginseng. Cylindrocarpon root rot is a major disease caused by replant failure in ginseng fields. Methods and Results: Solarization of infested greenhouse soil was carried out during the summer season after applying green manure (Sudan grass) and Calcium Cyanamide (CC) on the soil. Mycelium and conidia of C. destructans died at after 15 h, but they did not die at after 15 h. They also died after keeping the soil at for 2 h daily for 9 days, and at for 8 days, but they did not die at for 9 days. Maximum soil temperature was at 5 cm depth, at 10 cm, at 15 cm, at 20 cm, and at 30 cm by incorporating green manure into the soil and using solarization. Solarization using green manure mixed with CC was the most effective in decreasing soil-borne pathogens of 2-year-old ginseng. However, the addition of CC decreased the root weight due to the increase in EC and . Conclusions: Soil disinfection using green manure and solarization in a greenhouse environment was effective in inhibiting root rot, however, it did not completely kill the soil-borne pathogens.
Panax ginseng;Cylindrocarpon destructans;Calcium Cyanamide;Green Manure;Root Rot;Solarization;
 Cited by
인삼 추출물에 의한 Cylindrocarpon destructans의 주화성 반응 연구,허영화;시곤;장애화;뢰봉걸;양학;조암;이활;왕이환;이충;김종석;이승호;김영창;

한국약용작물학회지, 2016. vol.24. 5, pp.360-369 crossref(new window)
Ahn BY, Lee YH and Lee JH. (2010). Fertilizer management practices with rice straw application for improving soil quality in watermelon monoculture greenhouse plots. Korean Journal of Soil Science and Fertilizer. 43:75-82.

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.

Arora DK, Pandey AK and Srivastva AK. (1996). Effects of heat stress on loss of C, germination and pathogenicity from chlamydospores of Fusarium oxysporum f. sp. ciceri. Soil Biology and Biochemistry. 28:399-407. crossref(new window)

Blok WJ, Lamers JG, Termorshuizen AJ and Bollen GJ. (2000). Control of soilborne plant pathogens by incorporating fresh organic amendments followed by tarping. Phytopathology. 90:253-259. crossref(new window)

Eshel D, Gamliel A, Grinstein A, Di primo P and Katan J. (2000). Combined soil treatments and sequence of application in improving the control of soilborne pathogens. Phytopathology. 90:751-757. crossref(new window)

Freeman S and Katan J. (1988). Weakening effect on propagules of Fusarium by sublethal heating. Phytopathology. 78:1656-1661. crossref(new window)

Gamliel A and Stapleton JJ. (1993). Characterization of antifungal volatile compounds evolved from solarized soil amended with cabbage residues. Phytopathology. 83:899-905. crossref(new window)

Grnzweig JM, Katan J, Bental Y and Rabinowitch HD. (1999). The role of mineral nutrients in the increased growth response of tomato plants in solarized soil. Plant and Soil. 206:21-27.

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 Medicinal Crop Science. 17:439-444.

Jun HS, Park WC and Jung JS. (2002). Effects of soil addition and subsoil plowing on the change of soil chemical properties and the reduction of root-knot nematode in continuous cropping field of oriental melon(Cucumis melo L.). Korean Journal of Environmental Agriculture. 21:1-6. crossref(new window)

Jung WK, Ahn DJ, Choi JK, Ryu TS, Jang MH and Kwon TR. (2014). Effect of concentration and time of lime-bordeaux mixture on growth and disease of four and five year old ginseng(Panax ginseng C. A. Meyer). Korean Journal of Medicinal Crop Science. 22:483-488. crossref(new window)

Kim DW, Kim JY, Yu 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. crossref(new window)

Kim WS and Park JS. (2013). Selection and control effect of environmental friendly organic materials for controlling the ginseng Alternaria blight. Korean Journal of Medicinal Crop Science. 21:388-393. crossref(new window)

Klein E, Katan J, Austerweil M and Gamliel A. (2007). Controlled laboratory system to study soil solarization and organic amendment effects on plant pathogens. Phytopathology. 97:1476-1483. crossref(new window)

Kye UK and Kim KC. (1985). Possibility of soil solarization in Korea. Korean Journal of Plant Protection. 24:107-114.

Lee JS, Han KS, Lee SC, Soh JW and Kim DW. (2014). Environmental factors on the development of root rot on ginseng caused by Cylindrocarpon destructans. Research in Plant Disease. 20:87-94. crossref(new window)

Lee SW, Kim GS, Hyun DY, Kim YB, Kim JW, Kang SW and Cha SW. (2011). Comparison of growth characteristics and ginsenoside content of ginseng(Panax ginseng C. A. Meyer) cultivated with greenhouse and traditional shade facility. Korean Journal of Medicinal Crop Science. 19:157-161. crossref(new window)

Lee SW, Lee SH, Jang IB, Lan JM, Park KH and Kim KH. (2015). Effect of ridge height on growth characteristics and yield of 6-year-old Panax ginseng in cultivation of paddy soil. Korean Journal of Medicinal Crop Science. 23:351-356. crossref(new window)

Mo HS, Park HW, Jang IB, Yu J, Park KC, Hyun DY, Kim KH and Seo TC. (2015). Effect of seed density, number of seeds sown per hole and thinning treatment on growth characteristics and disease occurrence in greenhouse-cultivated ginseng. Korean Journal of Medicinal Crop Science. 23:198-206. crossref(new window)

Nam MH, Kim HS and Kim HG. (2011). Control of Fusarium wilt of the strawberry caused by Fusarium oxysporum f. sp. fragariae of solarization with compost and calcium cyanamide application. Research in Plant Disease. 17:32-37. crossref(new window)

National Institute of Agricultural Science and Technology (NIAST). (2000). Methods of soil chemical analysis. Rural Development Administration. Suwon, Korea. p.89-93.

Park KJ, Yu YH and Ohh SH. (1997). Population variations of Cylindrocarpon destructans causing root rot of ginseng and soil microbes in the soil with various moisture contents. Korean Journal of Plant Pathology. 13:100-104.

Pullman GS, Devay JE and Garber RH. (1981). Soil solarization and thermal death: A logarithmic relationship between time and temperature for four soilborne plant pathogens. Phytopathology. 71:959-964. crossref(new window)

Shlevin E, Saguy IS, Mahrer Y and Katan J. (2003). Modeling the survival of two soilborne pathogens under dry structural solarization. Phytopathology. 93:1247-1257. crossref(new window)

Simmons CW, Guo H, Claypool JT, Marshall MN, Perano KM, Stapleton JJ and VanderGheynst JS. (2013). Managing compost stability and amendment to soil to enhance soil heating during soil solarization. Waste Management. 33:1090-1096. crossref(new window)

Stapleton JJ and Duncan RD. (1998). Soil disinfestation with cruciferous amendments and sublethal heating: Effects on Meloidogyne incognita, Sclerotium rolfsii and Pythium ultimum. Plant Pathology. 47:737-742.

Stapleton JJ, Quick J and Devay JE. (1985). Soil solarization: Effects on soil properties, crop fertilization and plant growth. Soil Biology and Biochemistry. 17:369-373. crossref(new window)

Tamietti G and Valentino D. (2006). Soil solarization as an ecological method for the control of Fusarium wilt of melon in Italy. Crop Protection. 25:389-397. crossref(new window)