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Bacillus cereus MH778713 elicits tomato plant protection against Fusarium oxysporum
Author(s) -
Ramírez Verónica,
Martínez Javier,
BustillosCristales María del Rocio,
CatañedaAntonio Dolores,
Munive JoséAntonio,
Baez Antonino
Publication year - 2022
Publication title -
journal of applied microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.889
H-Index - 156
eISSN - 1365-2672
pISSN - 1364-5072
DOI - 10.1111/jam.15179
Subject(s) - fusarium wilt , bacillus cereus , biology , fusarium oxysporum , cereus , horticulture , seedling , fusarium , biological pest control , crop , wilt disease , agronomy , bacteria , genetics
Abstract Aim The genus Fusarium comprises plant pathogenic species with agricultural relevance. Fusarium oxysporum causes tomato wilt disease with significant production losses. The use of agrochemicals to control the Fusarium wilt of tomato is not environmentally friendly. Bacillus species, as biocontrol agents, provide a safe and sustainable means to control Fusarium ‐induced plant diseases. In this study, the ability of Bacillus cereus MH778713, a strain isolated from root nodules of Prosopis laevigata , to protect tomato plants against Fusarium wilt was evaluated. Methods and results Bacillus cereus MH778713 and its volatiles inhibited the radial growth of F . oxysporum and stimulated tomato seedling growth in in vitro and in vivo tests. When tomato plants growing in the greenhouse were inoculated with B . cereus MH778713, the percentage of wilted plants decreased from 96% to 12%, indicating an effective crop protection against Fusarium wilt. Among the metabolites produced by B . cereus MH778713, hentriacontane and 2,4‐di‐tert‐butylphenol promoted tomato seedling growth and showed antifungal activity against the target pathogen. Conclusion The inoculation of B . cereus MH778713 on tomato seedlings helped plants to manage Fusarium wilt, suggesting the potential of B . cereus MH778713 as a biocontrol agent. Significance and Impact of the Study These results complement our previous studies on chromium tolerance and bioremediation traits of B . cereus MH778713 by highlighting the potential of this metal‐resistant micro‐organism to boost crop growth and disease resistance.

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