The Korean Journal of Pesticide Science (농약과학회지)

The Korean Society of Pesticide Science (한국농약과학회)
권호 표지

Antifungal activity of pesticides to control dry rot and blue mold during garlic storage

마늘 저장 중 마름썩음병과 푸른곰팡이병 억제를 위한 농약의 살균활성

  • You, Oh-Jong (Department of Crop Life Safety, NIAST, RDA) ;
  • Lee, Yong-Hoon (Plant Pathology Division, NIAST, RDA) ;
  • Jin, Yong-Duk (Department of Crop Life Safety, NIAST, RDA) ;
  • Kim, Jin-Bae (Department of Crop Life Safety, NIAST, RDA) ;
  • Hwang, Se-Gu (Danyang Garlic Experiment Station, Chungbook Agricultural Research and Extension Services) ;
  • Han, Sang-Hyun (Department of Crop Life Safety, NIAST, RDA) ;
  • Kim, Jang-Eok (Division of Applied Biology and Chemistry, Kyungpook National University)
  • 유오종 (농업과학기술원 농산물안전성부) ;
  • 이용훈 (농업과학기술원 농업생물부) ;
  • 진용덕 (농업과학기술원 농산물안전성부) ;
  • 김진배 (농업과학기술원 농산물안전성부) ;
  • 황세구 (충북농업기술원 단양마늘시험장) ;
  • 한상현 (농업과학기술원 농산물안전성부) ;
  • 김장억 (경북대학교)
  • Published : 2007.12.30
Download PDF
⟨ Previous Next ⟩

Abstract

The major fungal diseases which effecting garlic storage are blue mold and dry rot, caused by Penicillium hirsutum and Fusarium oxysporum, respectively. In order to reduce the damage by the pathogenic fungi, here we report the effects of 11 fungicides tested to reduce spoilage during storage of garlics. In the in vitro antimicrobial activity test, the fungicides, diphenylamine, prochloraz and tebuconazole showed 0.3, 2.2, and 1.3 nun inhibition zone to F. oxysporium, and cyprodinil, diphenylamine, fenbuconazole, hexaconazole, penconazole, prochloraz, propiconazole, pyrimethanil and tebuconazole exhibited 0.2, 2.4, 0.8, 0.4, 1.2, 1.5, 1.2, 0.4 and 1.5 mm to P. hirsutum, respectively. To test the in vivo control effect, when the diphenylamine, prochloraz, and tebuconazole were treated by standard concentration, the fungal mycelium of F. oxysporium started to grow 5 days after inoculation, and 80, 63.3 and 83.3% of the inoculated cloves are infected 11 days after inoculation. When the tebuconazole were treated by standard concentration, the P. hirsutum was completely inhibited the growth of the fungi. In case of diphenylamine, penconazole and propiconazole treatment, the P. hirsutum was observed 7 days after inoculation and $20{\sim}23.3%$ of the cloves were infected 11 days after inoculation. When cyprodinil, prochloraz and pyrimethanil were treated, pathogens occurred 5 days after inoculation and $60{\sim}100%$ of the cloves infected 11 days after inoculation. Three fungicides such as diphenylamine, prochloraz and tebuconazole also suppressed remarkably the infection and growth of F. oxysporium and P. hirsutum on garlic when both of the pathogens are inoculated after the garlic cloves were dipped for 10 min in the suspension of each agrochemical. Overall, diphenylamine, prochloraz and tebuconazole showed effective control efficacy on dry rot and blue mold There was significant correlation between in vitro and in vivo assay in diphenylamine and prochloraz to F. oxysporum and cyprodinil, prochloraz and pyrimethanil to P. hirsutum.

마늘 저장중의 부패를 일으키는 주요 진균인 푸른곰팡이병균(Penicillium hirsutum)과 마름썩음병균(Fusarium oxysporum)의 생장을 억제하는 농약을 선발하고자 살균제 11종을 선정하여 균사생육억제시험과 접종시험을 수행하였다. 균사생육억제 정도와 마늘인편에서의 발병 억제 효과를 비교하기 위하여 시험약제를 처리한 후 병원균을 접종하여 병 발생정도를 조사한 결과, F. oxysporium에 대하여는 diphenylamine, prochloraz와 tebuconazole을 처리한 구에서는 초기에 발병이 현저히 억제되었으며, 기준량 처리시 접종 5일후 부터 병 발생이 시작되어 11일 후에는 $73.3{\sim}100%$ 발생하였다. P. hirsutum의 경우 cyprodinil, prochloraz 및 pyrimethanil을 기준농도 처리한 구에서 접종 5일 후부터 발병하였으며, diphenylamine, penconazole 및 propiconazole 처리구에서는 7일 후부터 발병하여 11일 후에는 $20{\sim}100%$ 정도 발생되었으나 tebuconazole 처리구에서는 병 발생이 되지 않았다. 이상의 결과를 종합하여 볼 때 diphenylamins, prochloraz와 tebuconazole 이 마름썩음병 및 푸른곰팡이병의 방제에 효과가 있는 것으로 확인되었으며, 약제별 방제가와 균총의 생육억제에 대한 상관분석결과, F. oxysporum에 대하여는 diphenylamine과 prochloraz가 높은 상관관계가 있었고, P. hirsutum에 대하여는 cyprodinil, prochloraz와 pyrimethanil이 높은 상관관계를 유지하였다.

Keywords

References

  1. Chand-Goyal T. and R. A. Spotts (1996) Control of postharvest pear diseases using natural saprophytic yeast colonists and their combination with a low dosage of thiabendazole. Postharvest Biology and Technology 7:51-64 https://doi.org/10.1016/0925-5214(95)00031-3
  2. Hwang, J. M. (1988) Effects of temperature and humidity conditions before and after planting on bulb dormancy and development in garlic (Allium sativum L.). Seoul National University
  3. loos R, A BeIhadj, M. Menez and A. Faure (2005) The effects of fimgicides on Fusarium spp. and Microdochium nivale and their associated trichothecene mycotoxins in french naturally-infected cereal grains. Crop Protection 24:894-902 https://doi.org/10.1016/j.cropro.2005.01.014
  4. Koffmann W. and L. J. Penrose (1987) Fungicides for the control of blue mould (Penicillium spp.) in pome fruits. Scientia Horticulturae 31 :225-232 https://doi.org/10.1016/0304-4238(87)90047-1
  5. Park Y. M., J. M. Hwang and H. T. Ha (2000) Storability of garlic bulbs as influenced by postharvest clipping treatments and storage temperature, J. Kor Soc. Hort. Sci. 41(4):315-318
  6. Peter L. S., B. Karen and S. Sarah (2005) Sensitivity of Penicillium spp. and Botrytis cinerea to pyrimethanil and its control of blue and gray mold of stored apples. Crop Protection 24: 127-134 https://doi.org/10.1016/j.cropro.2004.07.011
  7. Verniere, C. J., T. R. Gottwald and O. Pruvost, (2003) Disease development and symptom expression of Xanthomonas axonopodis pv. citri in various citrus plant tissues. Phytpathology 9(7):832-843
  8. 김용기, 이상범, 이상엽, 심홍식, 최인후 (2003) 마늘 저장병 방제를 위한 경종적, 화학적 접근, 한국농약과학회지 7(2):139-148
  9. 김종훈, 김진주, 정진홍, 이호준, 김재능 (2002) 마늘의 줄기 및 뿌리절단에 따른 저장 중 품질변화. 한국식품저장유통학회지 9(4):362-368
  10. 고하영 (1983) 마늘 장기저장방법. 전북대학교 석사학위논문
  11. 박용문, 황재문, 이병일 (1992) 종구의 저장온도가 마늘의 수확중 품질과 파종후 생육에 미치는 영향. 한국원예과학회지 33(2):103-110
  12. 배로나, 윤상돈, 안을균, 목일진, 임채일 (2002) 마늘 종구의 저장온도에 따른 생육 및 구비재의 품종간 차이. 원예과학기술지 20(2):95-99
  13. 이승우 (1981) 마늘의 저장성 향상에 고나한 연구. 경북대학교논문집(자연과학) 31:451-458
  14. 조원대, 김완규, 김한명 (1995) 마늘저장병해에 관하여는 진균. 농시논문집 37(2):325-329