[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5423/PPJ.2009.25.2.165

Biocontrol Activity of Acremonium strictum BCP Against Botrytis Diseases

Choi, Gyung-Ja (Chemical Biotechnology Center, Korea Research Institute of Chemical Technology)
Kim, Jin-Cheol (Chemical Biotechnology Center, Korea Research Institute of Chemical Technology)
Jang, Kyoung-Soo (Chemical Biotechnology Center, Korea Research Institute of Chemical Technology)
Nam, Myeong-Hyeon (Nonsan Strawberry Experiment Station, Chungnam ARES)
Lee, Seon-Woo (Division of Applied Biology, Dong-A University)
Kim, Heung-Tae (Department of Plant Medicine, Chungbuk National University)

Publication Information

The Plant Pathology Journal / v.25, no.2, 2009 , pp. 165-171 More about this Journal

Abstract

Biological control activity of Acremonium strictum BCP, a mycoparasite on Botrytis cinerea, was examined against six plant diseases such as rice blast, rice sheath blight, cucumber gray mold, tomato late blight, wheat leaf rust, and barley powdery mildew in growth chambers. The spore suspension of strain BCP showed strong control activities against five plant diseases except against wheat leaf rust. On the other hand, the culture filtrate of A. strictum BCP was effective in controlling only cucumber gray mold and barley powdery mildew. Further in vivo biocontrol activities of A. strictum BCP against tomato gray mold were investigated under greenhouse conditions. Control efficacy of the fungus on tomato gray mold increased in a concentration-dependent manner. Treatment of more than $1{\times}10^6$ spores/ml significantly controlled the disease both in tomato seedlings and in adult plants. The high disease control activity was obtained from protective application of the strain BCP, whereas the curative application did not control the disease. Foliar infections of B. cinerea were controlled with $1{\times}10^8$ spores/ml of A. strictum BCP applied up to 7 days before inoculation. In a commercial greenhouse, application of A. strictum BCP exhibited the similar control efficacy with fungicide procymidone (recommended rate, $500{\mu}g/ml$ ) against strawberry gray mold. These results indicate that A. strictum BCP could be developed as a biofungicide for Botrytis diseases under greenhouse conditions.

Keywords

Acremonium strictum; biocontrol agent; biofungicide; Botrytis cinerea; mycoparasite;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)
Times Cited By Web Of Science : 3 (Related Records In Web of Science)

Reference
Cited By KSCI

1	Jansma, J. E., van Keulen, H. and Zadoks, J. C. 1993. Crop protection in the year 2000: a comparison of current politics towards agrochemical usage in four West European countries. Crop Prot. 12:483-489 DOI ScienceOn
2	Kim, B. S., Choi, G J. and Cho, K. Y. 1993. Responses to several fungicides of Botrytis cinerea isolates resistant to benzimidazole and dicarboximide fungicides. Kor. J. Plant Pathol. 9: 104-111
3	Kim, J.-C., Choi, G J., Kim, H.-J., Kim, H. T, Ahn, J. W. and Cho, K. Y. 2002. Verlamelin, an antifungal compound produced by a mycoparasite, Acremonium strictum. Plant Pathol. J. 18: 102-105 DOI ScienceOn
4	Lorenz, D. H. and Eichhorn, K. W. 1982. Botrytis cinerea and its resistance to dicarboximide fungicides. EPPO Bull. 12:125-129 DOI
5	Malathrakis, N. E. 1985. The fungus Acremonim alternatum Linc: Fr., a hyperparasite of the cucurbits powdery mildew pathogen Sphaerothecafuliginea. J. Plant Dis. Prot. 92:509-515
6	McGee, P. A., Hincksman, M. A. and White, C. S. 1991. Inhibition of growth of fungi isolated from plants by Acremonium strictum. Aust. J. Agric. Res. 42:1187-1193 DOI
7	Moyano, C., Gomez, V. and Melgarejo, P. 2004. Resistance to pyrimethanil and other fungicides in Botrytis cinerea populations collected on vegetable crops in Spain. J. Phytopathol. 152:484-490 DOI ScienceOn
8	Paulitz T. C. and Belanger, R. R. 2001. Biological control in greenhouse systems. Annu. Rev. Phytopathol. 39: 103-133 DOI ScienceOn
9	Bulger, M. A., Ellis, M. A. and Madden, L. V. 1987. Influence of temperature and wet duration on infection of strawberry flowers by Botrytis cinerea and disease incidence of fruit originating from infected flowers. Phytopathology 77: 1225-1230 DOI
10	Pezet, R. 1982. Appearance of Botrytis cinerea resistance to vinclozolin and procymidone in vineyards in the canton of Geneva, Switzerland. EPPO Bull. 12:31-134 DOI
11	Kiss, L. 1997. Graminicolous powdery mildew fungi as new natural hosts of Ampelomyces parasites. Can. J. Bot. 75:680-683 DOI ScienceOn
12	Srivastava, A. K., Singh, D. B. and Rai, B. 1981. Colony interaction and mycoparasitism between Acremonium and Aspergillus spp. Plant and Soil 59:353-356 DOI
13	Kim, J.-C., Choi, G J., Park, J.-H., Kim, H. T and Cho, K. Y. 2001. Activity against plant pathogenic fungi of phomalactone isolated from Nigrospora sphaerica. Pest Manag. Sci. 60:803-808 DOI ScienceOn
14	Jarvis, W. R. and Slingsby, K. 1977. The control of powdery mildew of greenhouse cucumber by water sprays and Ampelomyces quisqualis. Plant Dis. Reptr. 61 :728-730
15	Gullino, M. L. and Garibaldi, A. 1986. Fungicide resistance monitoring as an aid to tomato grey mould management. Proc. Br. Crop Prot. Conf. 2:499-505
16	Choi, G J., Kim, J.-C., Jang, K. S., Cho, K. Y. and Kim, H. T. 2008. Mycoparasitism of Acremonium strictum BCP on Botrytis cinerea, the gray mold pathogen. J. Microbiol. Biotechnol. 18:167-170 PUBMED
17	Leroux, P. and CleJjeau, M. 1985. Resistance of Botrytis cinerea Pers. and Plasmopara viticola (Berk. and Curt) Berl. and de Toni to fungicides in French vineyards. Crop Prot. 4:137-160 DOI ScienceOn
18	Moorman, G. W. and Lease, R. T. 1992. Benzimidazole- and dicarboximide-resistant Botrytis cinerea from Pennsylvania greenhouses. Plant Dis. 76:477-480 DOI
19	Goodman, D. M. and Burpee, L. L. 1991. Biological control of dollar spot disease of creeping bentgrass. Phytopathology 81:1438-1446 DOI
20	Chaturvedi, A. P., Pandey, R. R. and Dayal. R. 1990. Morphological abnormalities in Mucor racemosus Fresenius induced by Cephalosporium acremonium Corda during mycoparasitism. Microbios Lett. 44:45-49
21	Singh, U. P., Vishwakanna, S. N. and Basuchaudhury, K. C. 1978. Acremonium sordidulum mycoparasitic on Colletotrichum dematium F. truncata. Mycologia 70:453-455 DOI
22	Staub, T. and Diriwaechter, G. 1986. Status and handling of fungicide resistance in pathogens of grapevine. Proc. Br. Crop Prot. Conf. 2:771-780
23	Pon, D., Schmitt, C. and Kingsolver, C. 1959. An Acremonium associated with stem rust pustules. Plant Dis. Reptr. 43:173-174
24	De Curtis, F., Torriani, S., Rossi, E. and De Cicco, V. 1996. Selection and use of Metschnikowia pulcherrima as a biological control agent for postharvest rots of peaches and table grapes. Ann. Microbiol. Enzimol. 46:45-55
25	Elad, Y., Gullino, M. L., Shtienberg, D. and Aloi, C. 1995. Managing Botrytis cinerea on tomatoes in greenhouses in the Mediterranean. Crop Prot. 14:105-109 DOI ScienceOn
26	Falk, S. P., Gadoury, D. M., Cortesi, P., Pearson, R. C. and Seem, R. C. 1995. Parasitism of Uncinula necator cleistothecia by the mycoparasite Ampelomyces quisqualis. Phytopathology 85:794-800 DOI ScienceOn
27	Jayapal Gowdu, B. and Balasubrarnnian, R. 1992. Biocontrol potential of rust of groundnut by Acremonium obcIavatum. Can. J. Bot. 71:639-643
28	Katan, R. 1982. Resistance to 3, 5 dichlorophenyl-N-cyclicimide (dicarboximide) fungicide in grey mould pathogen Botrytis cinerea in protected crops. Plant Pathol. 31: 133-141 DOI
29	Elad, Y., Zimand, G., Zaqs, Y., Zuriel, S. and Chet, I. 1993. Use of Trichoderma harzianum in combination or alternation with fungicides to control cucumber grey mould (Botrytis cinerea) under commercial greenhouse conditions. Plant Pathol. 42:324-332 DOI ScienceOn
30	Sirnay, E. I. 1988. Some filamentous associated with urediniospores of Uromyces viciae-fabae (Pers.) Schroet., and their effect on the urediniospores. Acta Phytopathologica et Entomologica Hungarica 23: 123-128
31	Janisiewicz, W. J. and Martinsburg, W. V. 1990. Biocontrol of grey-mold in pome fruits using Acremonium breve. United States Patent 4,950,472. Aug. 21, 1990
32	Hashioka, Y. and Nakai, Y. 1980. Ultrastructure of pycnidial development and mycoparasitism of Ampelomyces quisquaIis parasitic on Erysiphales. Trans. Mycol. Soc. Jpn. 21:329-328
33	Jones, K. A. and Burges, H. D. 1998. Technology of formulation and application. In: Formulation of microbial biopesticides: Beneficial microorganisms, nematodes and seed treatments, ed. by H. D. Burges, pp. 7-30. Kluwer Academic Publishers, Dordrecht
34	Bettiol, W. 1996. Biological control of plant pathogens in Brazil: application and current research. World J. Microbiol.. Biotechnol. 12:505-510 DOI ScienceOn
35	Janisiewicz, W. J. 1988. Biocontrol of postharvest diseases of apples with antagonist mixtures. Phytopathology 78: 194-198 DOI

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