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Monacrosporium thaumasium을 이용한 뿌리혹선충 (Meloidogyne incognita) 방제용 미생물제제의 개발

Development of a Biocontrol Agent Using Monacrosporium thaumasium to Control a Root Knot Nematode, Meloidogyne incognita

  • 최예훈 (㈜ 일신케미칼) ;
  • 김근기 (부산대학교 생명자원과학대학 생명응용과학부) ;
  • 손홍주 (부산대학교 생명자원과학대학 생명응용과학부) ;
  • 신해수 (국립서부호주대학교 농업생명과학대학) ;
  • 박현철 (부산대학교 생명자원과학대학 생명응용과학부)
  • Choi, Ye-Hoon (Il Shin Chemical Co. Ltd.) ;
  • Kim, Keun-Ki (School of Applied Life Science, Pusan National University) ;
  • Son, Hong-Joo (School of Applied Life Science, Pusan National University) ;
  • Shin, Hae-Soo (Soil Science and Plant Nutrition, Faculty of Natural and Agricultural Sciences, The University of Western Australia) ;
  • Park, Hyean-Cheal (School of Applied Life Science, Pusan National University)
  • 발행 : 2007.12.30

초록

미생물 제제의 실내 pot 실험을 통한 효능 실험에서 선발된 Monacrosporium thaumasium을 이용한 KBC3017 제제의 실외 포장 실험을 통해 최적의 구성과 효능 조건을 찾았다. 선발된 균주의 미생물제제 제조를 위해 첨가한 첨가제 중 무기증량제로 Diatomite와 유기증량제로 생옥분이 효과적이었으며, 처리량별 선충 밀도 억제효과는 처리량이 많을수록 효과가 높았으나, 적정 처리량은 2%의 diatomite와 옥가루가 포함된 KBC3017 제제를 이용하여 방제하였을 때 71%의 선충 방제 효과가 나타났다. 이 방제가는 대조구와 비교하였을 때 뿌리와 줄기에서 보다 좋은 효과가 있었다.

The created microbial pesticide was used to examine its effects using the inside-pot test method. The selected microbial pesticide KBC3017 particle pesticide manufactured by using Monacrosporium thaumasium was used in the farm-house outdoor test to find the optimum consistency and its effects. The more amount used, the better effect it showed. However, the optimum consistency was 2% and the KBC3017 particle pesticide for which the diatomite and raw jade powder were used as an increaser, when used 2% level of the total amount of soil, showed 71% effect on nematode prevention. The root and the stem of crops were better compared to those without any pesticide used.

키워드

참고문헌

  1. Barron, G. L. 1997. The nematode-destroying fungi. pp. 140, Canadian Biological Pub. Co., Canada
  2. Cayrol, J. C. 1983. Biological control of Meloidogyne by Arthrobotrys irregularis. Rev. Nematol. 6, 265-273
  3. Emmett, R. W., A. R. Harris, R. H. Taylor and J. K. McGechan. 1995. Grape diseases and vineyard protection, pp. 232-278, In Coombe, B. G. and P. R. Dry (eds), Viticulture, Vol. II, Winetitles, Adelaide
  4. Hussey, R. S. and K. R. Barker. 1973. A comparison of methods of collecting inocula for Meloidogyne spp. including a new technique. Plant Diease Report 57, 1025-1028
  5. Kerry, R. B. 1990. An assessment of progress toward microbial control of plant-parasitic nematodes. Suppl. J. Nematol. 22, 621-631
  6. Kim, D. G. and R. D. Riggs. 1991. Characteristics and efficacy of a sterile Hypomycete (ARF18), a new biocontrol agent for Heterodera glycines and other nematodes. J. Nemtol. 23, 275-282
  7. Kim, D. G., S. C. Han and K. M. Choi. 1987. Survey of root-knot nematodes (Meloidigyne Spp.)in continuous cultivation field of hot pepper. Res. Rept. RDA 29, 120-123
  8. Linford, M. B., F. Yab and J. M. Oliveria. 1937. Reduction of soil populations of the root-knot nematode during decomposition of organic matter. Soil Sci. 45, 127-141 https://doi.org/10.1097/00010694-193802000-00004
  9. Mankau, R. 1980. Biological control of nematode by natural enemies. Ann. Rev. Phytopathol. 18, 145-150
  10. Powel, K. A. and J. L. Faull. 1989. Commercial approches to the use of biological control agents in biotechnology of fungi for improving plants growth. pp. 259-275, Cambridge University Press, Cambridge
  11. Sayre, R. M. 1980. Promising organisms for biocontrol of nematodes. Plant Dis. 64, 527-532 https://doi.org/10.1094/PD-64-527
  12. Taylor, A. L. and J. N. Sasser. 1978. Biology, identification and control of root-knot nematodes. pp. 111, North Carolina State University Press, North Carolina
  13. Whitehead, A. G. and J. R. Hemming. 1965. A comparison of some quantitative methods of extracting small vermiform nematodes from soil. Annal. Appl. Biology 55, 25-38 https://doi.org/10.1111/j.1744-7348.1965.tb07864.x