Understanding the Mechanisms Employed by Trichoderma virens to Effect Biological Control of Cotton Diseases

Abstract

HomePhytopathology®Vol. 96, No. 2Understanding the Mechanisms Employed by Trichoderma virens to Effect Biological Control of Cotton Diseases PreviousNext Symposium OPENOpen Access licenseUnderstanding the Mechanisms Employed by Trichoderma virens to Effect Biological Control of Cotton DiseasesCharles R. HowellCharles R. HowellCorresponding author: C. R. Howell; E-mail address: E-mail Address: chowell@cpru.usda.govSearch for more papers by this authorAffiliationsAuthors and Affiliations Charles R. Howell Published Online:16 Feb 2007https://doi.org/10.1094/PHYTO-96-0178AboutSectionsPDF ToolsAdd to favoritesDownload CitationsTrack Citations ShareShare onFacebookTwitterLinked InRedditEmailWechat DetailsFiguresLiterature CitedRelated Vol. 96, No. 2 February 2006SubscribeISSN:0031-949Xe-ISSN:1943-7684 Metrics Article History Issue Date: 25 Jan 2008Published: 16 Feb 2007Accepted: 29 May 2005 Pages: 178-180 InformationThe American Phytopathological Society, 2006PDF downloadCited byTrichoderma harzianum as a potential biological agent in control of the charcoal root rot of sugar beet21 February 2023 | Journal of Plant Diseases and Protection, Vol. 17Microbial metabolites in plant disease managementSecondary metabolites of Trichoderma and their bioprospectives in plant microbiomeTrichoderma spp. Improves Flowering, Quality, and Nutritional Status of Ornamental Plants10 December 2022 | International Journal of Molecular Sciences, Vol. 23, No. 24Trichoderma for Biocontrol and Biostimulation – A Green Fungus Revolution in Agriculture23 September 2022Gliotoxin, an Immunosuppressive Fungal Metabolite, Primes Plant Immunity: Evidence from Trichoderma virens -Tomato InteractionmBio, Vol. 13, No. 4Evaluation of biocontrol potential of native Trichoderma isolates against charcoal rot of strawberry14 March 2022 | Journal of Plant Pathology, Vol. 104, No. 2Flowering, Nutritional Status, and Content of Chloroplast Pigments in Leaves of Gladiolus hybridus L. ‘Advances Red’ after Application of Trichoderma spp.12 April 2022 | Sustainability, Vol. 14, No. 8Industrially Important Genes from Trichoderma10 June 2022Evaluation of gliotoxin phytotoxicity and gliotoxin producing Trichoderma virens for the suppression of damping off of tomato5 June 2022 | Journal of Biological ControlHarnessing Trichoderma in Agriculture for Productivity and Sustainability16 December 2021 | Agronomy, Vol. 11, No. 12Gliotoxin Is an Important Secondary Metabolite Involved in Suppression of Sclerotium rolfsii of Trichoderma virens T23Lixia Hua, Hualan Zeng, Lian He, Qiuping Jiang, Pengsheng Ye, Yong Liu, Xiaofang Sun, and Min Zhang3 November 2021 | Phytopathology®, Vol. 111, No. 10Mixtures of Biological Control Agents and Organic Additives Improve Physiological Behavior in Cape Gooseberry Plants under Vascular Wilt Disease29 September 2021 | Plants, Vol. 10, No. 10Antagonistic Activity of Trichoderma spp. Against Fusarium oxysporum in Rhizosphere of Radix pseudostellariae Triggers the Expression of Host Defense Genes and Improves Its Growth Under Long-Term Monoculture System15 March 2021 | Frontiers in Microbiology, Vol. 12Morphological and genetic characterization of Fusarium oxysporum and its management using weed extracts in cottonJournal of King Saud University - 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