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United States Department of Agriculture

Agricultural Research Service

Title: Seedling Disease Control: Induction of Phytoalexin Synthesis in Cotton by Biocontrol Agents

Authors
item Howell, Charles
item Hanson, Linda
item Stipanovic, Robert

Submitted to: National Cotton Council Beltwide Cotton Conference
Publication Type: Abstract Only
Publication Acceptance Date: January 9, 1998
Publication Date: N/A

Technical Abstract: The mechanisms involved in the biocontrol of cotton seedling diseases by Trichoderma virens has been the subject of investigation for many years. The production of mutants of T. virens deficient for mycoparasitism and antiobiotic synthesis has shown that neither mechanism is vital for biocont rol efficacy. Recent evidence, however, indicates that the biocontrol agent may function by stimulating cotton roots to syntehsize antifungal phytoalexins. HPLC analyses of extracts of excised roots from cotton seedlings grown in sterile vermiculite after seed treatment with a wheat bran/peat moss control or air-dried prepartions of T. virens gave the following results: Extracts of control roots yielded only small quantities of phytoalexins, whereas those treated with T. virens preparations were stimulated to synthesize much higher concentrations of hemigossypol (HG), desoxyhemigossypol (dHG) and gossypol (G). When these compounds were assayed for toxicity to the pathogen Rhizoctonia solani, all three proved to be fungicidal. The most toxic was dHG with an LD 100 of 5 ug ml-1, followed by HG (10 ug ml-1) and G (30 ug ml-1). A comparison of biocontrol-effective and noneffective strains of T. virens for stimulation of phytoalexin synthesis in cotton roots, showed that strains with no biocontrol activity had little effect on phytoalexin production. Strains showing good biocontrol efficacy stimulated high levels of phytoalexin syntehsis in treated roots. These results indicate that stimulation of phytoalexin synthesis, and perhaps the entire resistance system, in the host plant by seed treatments with T. virens prior to infection by seedling disease pathogens may be the principal mechanism in seedling disease control.

Last Modified: 4/20/2014
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