Search in Medwell
 
 
Research Journal of Biological Sciences
Year: 2011 | Volume: 6 | Issue: 10 | Page No.: 523-531
DOI: 10.3923/rjbsci.2011.523.531  
Selection of Potential Antagonistic Bacillus and Trichoderma Isolates from Tomato Rhizospheric Soil Against Fusarium oxysporum f.sp. lycoperscisi
D. Praveen Kumar, R. Thenmozhi, P.D. Anupama, A. Nagasathya, N. Thajuddin and A. Paneerselvam
 
References
Annouschka, B., L. Anastasia, H.M.W. Andre, E.M.L. Gerda, F.C. Thomas, A.W. Chin and J.L. Ben, 2003. Interactions in the tomato rhizosphere of two Pseudomonas biocontrol strains with the phytopathogenic fungus Fusarium oxysporum f.sp. radicis-lycopercisi. Mol. Plant Microb Interactions, 16: 983-993.

Chitarra, G.S., P. Breeuwer, M.J. Nout, A.C. van Aelst , F.M. Rombouts and T. Abee, 2003. An antifungal compound produced by Bacillus subtilis YM 10-20 inhibits germination of Penicillium roqueforti conidiospores. J. Appl. Microbiol., 94: 159-166.
Direct Link  |  

Cho, S.J., S.K. Lee, B.J. Cha, Y.H. Kim and K. Shin, 2003. Detection and characterization of the Gloeosporium gloeosporioides growth inhibitory compound iturin A from Bacillus subtilis strain KS03. FEMS Microbiol. Lett., 223: 47-51.
Direct Link  |  

Christopher, D.J., T.S. Raj, S.U. Rani and R. Udhayakumar, 2010. Role of defense enzymes activity in tomato as induced by Trichoderma virens against Fusarium wilt caused by Fusarium oxysporum f. sp. lycopersici. J. Biopesticides, 3: 158-162.
Direct Link  |  

Cook, R.J., W.L. Bruckart, J.R. Coulson, M.S. Goettel and R.A. Humber et al., 1996. Safety of microorganisms intended for pest and plant disease control: A framework for scientific evaluation. Biol. Control, 7: 333-351.
CrossRef  |  

De Boer, M., I. van der Sluis, L.C. van Loon and P.A.H.M. Bakker, 1999. Combining fluorescent Pseudomonas spp. strains to enhance suppression of Fusarium wilt of radish. Eur. J. Plant. Pathol., 105: 201-210.
CrossRef  |  Direct Link  |  

Dennis, C. and J. Webster, 1971. Antagonistic properties of species groups of Trichoderma: I. Production of non-volatile antibiotics. Trans. Br. Mycol. Soc., 57: 25-39.
CrossRef  |  

Dernoeden, P.H. and M.S. McIntosh, 1991. Disease enhancement and Kentucky bluegrass quality as influenced by fungicides. Agron. J., 83: 322-326.

Dubey, S.C. and B. Patel, 2001. Evaluation of fungal antagonists against Thanatephorus cucumeris causing web blight of urd and mung bean. Ind. Phytopathol., 54: 206-209.

Dubey, S.C., 2002. Bioagent based integrated management of collar rot of French bean. Indian Phytopathol., 55: 230-231.

Dubey, S.C., 2003. Integrated management of web blight of urd and mungbean. Indian Phytopathol., 56: 413-417.
Direct Link  |  

Duke, S.O., J.J. Menn and J.R. Plimmer, 1993. Challenges of Pest Control with Enhanced Toxicological and Environmental Safety, an overview. In: Pest Control with Enhanced Environmental Safety: ACS Symp. Ser., Duke, S.O., J.J. Menn and J.R. Plimmer (Eds.). John Wiley and Sons, Inc., Washington, DC., pp: 1-13.

Edgington, L.V., K.L. Khew and G.L. Barron, 1971. Fungitoxic spectrum of benzimidazole compounds. Phytopathology, 61: 42-44.
Direct Link  |  

Elad, T., J. Chet and J. Katan, 1980. Trichoderma harzianum a biocontrol effective against Sclerotium rolfsii and Rhizoctonia solani. Phytopathol., 70: 119-121.

Elmholt, S., 1991. Side effects of propiconazole (Tilt 250 EC) on non-target soil fungi in a field trial compared with natural stress effects. Microb. Ecol., 22: 99-108.

Gajbhiye, A., A.R. Rai, S.U. Meshram and A.B. Dongre, 2010. Isolation, evaluation and characterization of Bacillus subtilis from cotton rhizospheric soil with biocontrol activity against Fusarium oxysporum. World J. Microbiol Biotech., 26: 1187-1194.
CrossRef  |  

Gamalero, E., G. Lingua, G. Berta and P. Lemanceau, 2003. Methods for studying root colonization by introduced beneficial bacteria. Agronomie, 23: 407-418.

Ghisalberti, E.L. and K. Sivasithamparam, 1991. Antifungal antibiotics produced by Trichoderma spp. Soil Biol. Biochem., 23: 1011-1020.
Direct Link  |  

Hajieghrari, B., M. Torabi-Giglou, M.R. Mohammadi and M. Davari, 2008. Biological potential of some Iranian Trichoderma isolates in control of soil borne plant pathogenic fungi. Afr. J. Biotechnol., 7: 967-972.
Direct Link  |  

Jarvis, W.R. and H.J. Thorpe, 1976. Susceptibility of Lycopersicon species and hybrids to the foot and root rot pathogen Fusarium oxysporum. Plant Dis. Rep., 60: 1027-1031.

Jones, J.B., J.P. Jones, R.E. Stall and T.A. Zitter, 1991. Compendium of Tomato Disease. 1st (Edn). The American Phytopathological Society, New York, Pp: 100-100.

Josie, W., M.C. John, R.M. Peter and M.C. Richard, 2003. Saprotrophic and Mycoparasitic components of Aggressiveness of Trichoderma harzianum groups toward the Commercial Mushroom Agaricus bisporus. Appl. Environ. Microbiol., 69: 4192-4199.

Kallo, G., 1991. Genetic Improvement of Tomato. Springer-Verlag Berlin Heidelberg, Germany, Pp: 99-99.

Kumar, D. and S.C. Dubey, 2001. Management of collar rot of pea by the integration of biological and chemical methods. Indian Phytopathol., 54: 62-66.

Li, D., F. Nie, L. Wei, B. Wei and Z. Chen, 2007. Screening of high-yielding biocontrol bacterium Bs-916 mutant by ion implantation. Appl. Microbiol. Biotechnol., 75: 1401-1408.
PubMed  |  

Mao, W., J.A. Lewis, R.D. Lumsden and K.P. Hebbar, 1998. Biocontrol of selected soil borne diseases of tomato and pepper plants. Crop Protection, 17: 535-542.
Direct Link  |  

Mark, S., F. Siegfried and W.M.R. Francis, 2008. Evaluation of Trichoderma spp. as a biocontrol agent against wood decay fungi in urban trees. Biological Control, 45: 111-123.

Marten, P., K. Smella and G. Berge, 2000. Genotypic and phenotypic differentiation of an antifungal biocontrol strains belonging to Bacillus subtilis. J. Appl Microbiol., 89: 463-471.
PubMed  |  

Mohamed, M., L. Ranjard, C. Catroux, G. Catroux and A. Hartmann, 2005. Effect of natamycin on the enumeration, genetic structure and composition of bacterial community isolated from soils and soybean rhizosphere. J Microb. Meth., 60: 31-40.
Direct Link  |  

Morshed, M.S., 1985. In vitro antagonism of diVerent species of Trichoderma on some seed borne fungi of bean (Phasiolus vulgaris L.). Bangladesh Jr. Botany, 14: 119-126.

Morton, D.T. and W.H. Stroube, 1955. Antagonistic and stimulatory effects of soil microorganisms upon Sclerotium rolfsii. Phytopathology, 45: 417-420.

Padmodaya, B. and H.R. Reddy, 1996. Screening of Trichoderma spp. against Fusarium oxysporum f. sp. lycopersici causing wilt in tomato. J. Mycol. Plant Pathol., 26: 266-270.
Direct Link  |  

Poddar, R.K., D.V. Singh and S.C. Dubey, 2004. Integrated application of Trichoderma harzianum mutants and carbendazim to manage chickpea wilt (Fusarium oxysporum f. sp. ciceri). Ind. J. Agric. Sci., 74: 346-348.

Rifai, M.A., 1969. A revision of the genus Trichoderma. Mycol. Pap. Commonwealth Mycol. Inst., Kew, Surrey, England.

Russell, P.E., 1995. Fungicide resistance: occurrence and management. J. Agric. Sci., 124: 317-323.
CrossRef  |  

Sanchez, V., O. Rebolledo, R.M. Picaso, E. Cardenas, J. Cordova, O. Gonzalez and G.J. Samuels, 2007. In vitro antagonism of Thielaviopsis paradoxa by Trichoderma longibrachiatum. Mycopathologia, 163: 49-58.
PubMed  |  

Sato, R. and T. Araki, 1974. On the tomato root-rot disease occurring under vinyl-house conditions in southern Hokkaido. Ann. Rep. Soc. Plant Prot. North Jpn., 25: 5-13.

Shanmugam, V. and N. Kanoujia, 2011. Biological management of vascular wilt of tomato caused by Fusarium oxysporum f.sp. lycospersici by plant growth-promoting rhizobacterial mixture. Biol. Control, 57: 85-93.
Direct Link  |  

Shoda, M., 2000. Bacterial control of plant diseases. J. Biosci. Bioeng., 89: 515-521.
CrossRef  |  

Siddiqui, S., Z.A. Siddiqui and I. Ahmad, 2005. Evaluation of fluorescent pseudomonads and Bacillus isolates for the biocontrol of wilt disease complex of pigeonpea. World J. Microbiol. Biotechnol., 21: 729-732.
CrossRef  |  Direct Link  |  

Sivasithamparam, K. and E.L. Ghisalberti, 1998. Secondary Metabolism in Trichoderma and Gliocladium. In: Trichoderma and Gliocladium, Volume 1: Basic Biology, Taxonomy and Genetics, Harman, G.E. and C.P. Kubicek (Eds.). Taylor and Francis, London, UK., ISBN-13: 978-0748405725, pp: 139-191.

Sonoda, R.M., 1976. The occurrence of fusarium root rot of tomatoes in South Florida. Plant Dis. Rep., 60: 221-274.

Sorheim, R., V.L. Torsvik and J. Goksoyr, 1989. Phenotypical divergences between population of soil bacteria isolated on different media. Microb. Ecol., 40: 169-176.

Stein, T., 2005. Bacillus subtilis antibiotics: Structures, syntheses and specific functions. Mol. Microbiol., 56: 845-857.
CrossRef  |  

Strange, R.N., 1993. Plant Disease Control: Towards Environmentally Acceptable Methods. Chapman and Hall Publishing, New York, pp: 354.

Tabacchioni, S., L. Chiarini, A. Bevivino, C. Cantale and C. Dalmastri, 2000. Bias caused by using different isolation media for assessing the genetic diversity of a natural microbial population. Microb. Ecol., 40: 169-176.
PubMed  |  

Taylor, J.P., B. Wilson, M.S. Mills and R.G. Burns, 2002. Comparison of microbial numbers and enzymatic activities in surface soils and subsoils using various techniques. Soil Biol. Biochem., 34: 387-401.
Direct Link  |  

Thatcher, P.S. and D.S. Clark, 1968. Microorganisms in Foods: Their Significance and Methods of Enumeration. Vol. 1, University of Toronto Press, Toronto, ISBN: 0-8020-2293-6.

Thippeswamy, B., H.V. Sowmya and M. Krishnappa, 2010. Pathogenicity and management of early blight and wilt in tomato caused by Alternaria solani and Fusarium oxysporum. Asian J. Microb., Biotechnol. Environ. Sci., 12: 739-744.

Vieira, F.C.S. and E. Nahas, 2005. Comparison of microbial numbers in soils by using various culture media and temperatures. Microb Res., 160: 197-202.
PubMed  |  

Vizcaino, J.A., L. Sanz, A. Basilio, F. Vicente, S. Gutierrez, M.R. Hermosa and E. Monte, 2005. Screening of antimicrobial activities in Trichoderma isolates representing three Trichoderma sections. Mycol. Res., 109: 1397-1406.
CrossRef  |  

Walker, R., A.A. Powell and B. Seddon, 1998. Bacillus isolates from the spermosphere of peas and dwarf French beans with antifungal activity against Botrytis cinerea and Pythium species. J. Applied Microbiol., 84: 791-801.
CrossRef  |  

Yamamoto, I., H. Komada, K. Kuniyasu, M. Satio and A. Ezuka, 1974. A new race of Fusarium oxysporum f. sp. lycopersici inducing root rot of tomato. Proc. Kansai Plant Prot. Soc., 16: 17-29.