In Vitro Investigation of Trichoderma Strain Potential Against Fusarium Wilt of Tomato
Al-Qadisiyah Journal For Agriculture Sciences,
2021, Volume 11, Issue 1, Pages 32-35
AbstractThree modes of action of Trichoderma strain are evaluated, with in vitro tests, in order to verify the potential of this antagonistic against Fusarium oxysporum f. sp. lycopersici isolated from tomato plant in Oued Righ region, Algerian southeast. Inhibition rates of Fusarium wilt of the order of 56, 65 and 70% are respectively obtained with antibiosis, competition and mycoparasitism mechanisms. Results, analyzed by ANOVA, are confirmed that the biological agent showed significant fungistatic effect towards Fusarium wilt of tomato most importantly by mycoparasitism that constitutes the most effective mechanism among all the tests applied.
 N.P. Verma, I. Kaur, H. Masih, A.K. Singh, A.Singla, "Efficacy of Trichoderma in controlling Fusarium wilt in tomato (Solanum lycopersicum L.)", Res. Environ. Life Sci., 10(7), 2017, 636-639.
 R.M. Giurgiu, A. Dumitraș, G. Morar, P. Scheewe, F.G. Schröder, "Study on the biological control of Fusarium oxysporum using Trichoderma spp., on soil and rockwool substrates in controlled environment", Not Bot Horti Agrobo., 46(1), 2018, 260-269.
 Manganiello, A. Sacco, M.R. Ercolano, F., Vinale, S. Lanzuise, A. Pascale, M. Napolitano, N. Lombardi, M. Lorito, L.W. Sheridan, "Modulation of tomato response to Rhizoctonia solani by Trichoderma harzianum and its secondary metabolite harzianic acid", Front Microbiol., 9(1966), 2018,1-19.
 E.T. Redda, J. Ma, J. Mei, M. Li, B. Wu, X. Jiang, "Antagonistic potential of different isolates of Trichoderma against Fusarium oxysporum, Rhizoctonia solani, and Botrytis cinerea", Eur J Exp Bio., 8(2:12), 2018, 1-8.
 G.E., Harman, C.P. KUBICEK, Trichoderma and Gliocladium enzymes, biological control and commercial applications (Taylor & Francis e-Library: London, 2005).
 C.P. Kubicek, G.E.Harman, Trichoderma and Gliocladium Basic biology, taxonomy and genetics (Taylor & Francis e-Library: London, 2002).
 M. Shi, L. Chen, X.W. Wang, T. Zhang, P. Zhao, X. Song, C. Sun, X. Chen, B. Zhou, Y.Zhang, "Antimicrobial peptaibols from Trichoderma pseudokoningii induce programmed cell death in plant fungal pathogens", Mic., 158, 2012, 166-175.
 B.R. Dotson, D. Soltan, J. Schmidt, M. Areskoug, K. Rabe, C. Swart, C. WidelL, A.G.Rasmusson, "The antibiotic peptaibol alamethicin from Trichoderma permeabilises arabidopsisroot apical meristem and epidermis but is antagonised by cellulase-induced resistance to alamethicin", BMC Plant Biology, 18(165), 2018, 1-11.
 P.Rajeswari, "Role of phenols and antioxidant enzymes in biocontrol of Fusarium oxysporum causing Fusarium wilt of Arachis hypogeae L. (Groundnut) ", IJASR., 4(6), 2014, 95-104.
 M. Shahid, M. Srivastava, S. Pandey, V. Kumar, A. Singh, S. Trivedi, Y.K. Srivastava, S.Ram, "Management of Fusarium Wilt using mycolytic enzymes produced by Trichoderma harzianum (Th. Azad)", Afr. J. Biotechnol., 14(38), 2015, 2748-2754.
 C.R. Howell, "Mechanisms employed by Trichoderma species in the biological control of plant diseases: The history and evolution of current concepts", Plant Disease, 87(1), 2003, 4-10.
 V.K. Gupta, M. Schmoll, A. Herrera-estrella, R.S. Upadhyay, I. Druzhinina, M.G. Tuohy, Biotechnology and biology of Trichoderma (Elsevier, 2014).
 W. Benlamoudi, W. Lakhdari, A. Dehliz, O.Guezoul, "Experimental Approach for Easy Identify Fusarium wilt of Tomato", World Journal of Environmental Biosciences, 8(4), 2019, 44-48.
 R. Iuliana, E.S. Tatiana, M. Rocio, B.D. Mihaela, O. Florin, C. Mariana, L.A. Melania, V. Gelu, J., Luiza, "Study on the Effectiveness of Antagonistic Trichoderma spp. on the Growth of Some Vegetables Under Laboratory and Greenhouse Conditions", REV.CHIM.(Bucharest), 67(8), 2016, 1504-1507.
 E. Khalili, M. Sadravi, S. Naeimi, V. Khosravi, "Biological control of rice brown spot with native isolates of three Trichoderma species", Braz. J. Microbiol., 43(1), 2012.
 K. Hibar, M. Daami-remadi, H. Khiareddine, M. El Mahjoub, "Effet inhibiteur in vitro et in vivo du Trichoderma harzianum sur Fusarium oxysporum f. sp. radicis-lycopersici", Biotechnol. Agron. Soc. Environ., 9(3), 2005, 163-171.
 T. Benítez, A.M. Rincón, M.C. Limón, A.C. Codón, "Biocontrol mechanisms of Trichoderma strains", INT Microbiol., 7, 2004, 249-260.
 P. Sharma, "Complexity of Trichoderma-Fusarium interaction and manifestation of biological control", AJCS, 5(8), 2011, 1027-1038.
 B. Gveroska, J. Ziberoski, "Trichoderma harzianum as a biocontrol agent against Alternaria alternata on tobacco", ATI, 7(2), 2012, 67-76.
 D.J. Christopher, T.R. Suthin, S.U. Rani, R. Udhayakumar, "Role of defense enzymes activity in tomato as induced by Trichoderma virens against Fusarium wilt caused by Fusarium oxysporum f. sp. Lycopersici", JBiopest, 3(1), 2010, 158-162.
 S. Ojha, N.C. Chatterjee, "Induction of resistance in tomato plants against Fusarium oxysporum f. sp. lycopersici mediated through salicylic acid and Trichoderma harzianum", Journal of plant protection research, 52(2), 2012, 220-225.
- Article View: 128
- PDF Download: 122