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Environmentally-friendly Control of Soil Nematode by Crashed-rape (Brassica naptus) seed
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 Title & Authors
Environmentally-friendly Control of Soil Nematode by Crashed-rape (Brassica naptus) seed
Kim, Hee-Kwon; Ma, Kyung-Cheol; Kim, Myeong-Seok; Bang, Geuk-Pil; Kim, Joung-Keun; Park, Min-Soo;
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The present studies were carried out for three years from 2007 until 2009 to control nematode and to increase yield of cucumber by crashed-rape seed application at polyethylene film house. Crashed-rape seed has a lot of glucosinolate. Myrosinase decompose gulcosinolate into isothiocyanate and thiocyanate when crashedrape seed go to decay at soil. Those chemical compounds act on poison to nematode at soil. When the crashedrape seed treated at soil, an amount of thiocyanate at soil was risen up. Thiocyanate of plot treated with 200 and 400 kg crashed-rape seed per 10a was 30 and 40 mg/kg, respectively. Nematode(meloidogyne spp) population at soil was 13 to 17 nematodes per dried soil 300g. Yield of cucumber increased 6 to 15 percent to be compared with control. While, Nematode(meloidogyne spp) population of control plot were 463 nematodes per dried soil 300 g. This level was much higher than 150 nematodes which can be brought about injury to plant. Even if the more an amount of crashed-rape seed application, the higher yield of cucumber and control effect of nematode. Consider economical efficiency, 200 kg of crashed-rape seed per 10a was the most effective. Therefore, we suggest applying 200 kg of crashed-rape seed per 10a to control soil nematode when culture cucumber at plastic film house.
Crashed-rape seed;Cucumber;Nematode;Plastic film house;Soil;
 Cited by
유채박 이용 시설하우스 연작재배 시 뿌리혹선충 밀도억제효과,이후관;이영화;김광수;장영석;최인후;

한국자원식물학회지, 2015. vol.28. 1, pp.93-100 crossref(new window)
The Effect Control of Root-knot Nematode by Using Rapeseed Meal in Continuous Cultivation at Greenhouse, Korean Journal of Plant Resources, 2015, 28, 1, 93  crossref(new windwow)
Photodynamic apoptosis and antioxidant activities of Brassica napus extracts in U937 and SK-HEP-1 cells, Applied Biological Chemistry, 2017, 60, 4, 427  crossref(new windwow)
Brown, P.D., Morra, M.J., 1996. Hydrolysis products of glucosinolates in Brassica napustissues as inhibitors of seed germination, Plant and Soil. 181, 307-316. crossref(new window)

Collins, H.P., Alva, A., Boydston, R. A., Cochran, R. L., Hamm. P.B., McGuire. A., Riga, E., 2006. Soil microbial, fungal, and nematode responses to soil fumigation and cover crops under potato production, Biol Fertil Soils. 42, 247-257. crossref(new window)

Hasen, M., Moller, P., Sorensen H., 1995. Glucosinolate in broccoli stored undercontrolled atmosphere, J. Amer. Soc. Sci. 120(6), 1069-1074.

Halbrendt J.M., 1996. Alleopathy in the management of plant-parasitic nematode, Journal of Nematology. 28(1), 8-14.

Karcher A., Hassan A., Melouk, and Ziad EI Rassi, 1999. High-performance Liquid Phase Separation of Glucosides. 5. Determination of Individual Glucosinolate in Cabbage and Rapeseed by Laser-Induced Fluorescene Capillary Electrophoresis via the Enzymatically Released Isothiocyanate Aglycon, J. Agri. Food Chem., 47, 4267-4274 crossref(new window)

Kim, H.H., Choo, H.Y., Park, C.G., Lee, S.M., Kim J.B., 1998. Biological control of the Nothern Rootknot Nematode, Meloidpgyne hapla with Plant Extract, Korean Journal of applied entomology. 37(2), 119-122.

Kim, H.L., Weon, H.Y., Sohn, B.K., Choi, Y.H., Kwack, Y.B., 2009. Microbial Community Changes in the Soil of Plastic Film House as Affected by Anaerobic Fermentation of Rice Bran or Wheat Bran, Korean J. Soil Sci. Fert. 42(5), 341-347.

Manish, Nivsarkar., Baqu, Cherian., Harish, Padh., 2001. Alpha-terthienyl : A plant-derived new generation insecticide, Current science. 81(6), 667.

McSorley R., Ozores-Hamton M., Stanly P.A. and Conner M., 1999. Nematode Management, Soil Fertility and Yield in Oranic Vegetable Production, NMTROPICA. 29(2), 206-213.

National Academy of Agriculture Science, 2000. Method of soil and crop plant analysis.

National Academy of Agriculture Science, 2001. An illustrated plant parasite nematode book

Oerlemans, K., Diane, M.B., Saudes, C.B., Verke, R., Dekker, M., 2006. Thermal degradation of glucosinolate in red cabbage, Food Chemistry. 95, 19-29. crossref(new window)

Rural Development Administration, 2001. Method of Cucumber Culture.

Southey, J.F., 1986. Laboratory methods for with plant and soil nematodes. Her Majesty’s Stationery Office. London 202.

Thomas S. H., 1995. Population Densities of Nematodes Under Seven Tillage Reimes, Journal of Nmatology, 10(1), 24-27.

Tripathi, A. N., ehikhalikar, S., Patel, K. S., 1997. Flow injection analysis of iron in rain water with thiocyanate and surfactant, Journal of Automatic Chemistry. 19(2), 45-50. crossref(new window)

Zaia, D.A.M., Santana, H.D., Toppan, R., Zaia C.T.V.B., 2004. Synthesis of guanidine from ammonium thiocyanate in solide state, J. Braz. Chem. Soc. 15(2), 190-198. crossref(new window)