Microbial biopesticides: diversity, scope, and mechanisms involved in plant disease control

Food losses, defined as a reduction in the quantity and quality of food during production and storage, impact food safety and security. Losses caused by plant pathogens are among the most significant. Chemical pesticides have been extensively used to prevent microbial diseases. Their toxicity and r...

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Detalles Bibliográficos
Autores principales: Vero, Silvana, Garmendia, Gabriela, Allori, Enzo, Sanz, José María, Gonda, Mariana, Alconada Magliano, Teresa María, Cavello, Ivana Alejandra, Dib, Julián Rafael, Diaz, Mariana Andrea, Nally, Cristina, Sanzio Pimenta, Raphael, Silva, Juliana F. M., Vargas, Marisol, Zaccari, Fernanda, Wisniewski, Michael
Formato: Articulo
Lenguaje:Español
Publicado: 2023
Materias:
Biología
Ciencias Agrarias
Biocontrol
Biopesticides
Food losses
Acceso en línea:http://sedici.unlp.edu.ar/handle/10915/154411
Aporte de:
SEDICI (UNLP) de Universidad Nacional de La Plata
Descripción
Sumario:Food losses, defined as a reduction in the quantity and quality of food during production and storage, impact food safety and security. Losses caused by plant pathogens are among the most significant. Chemical pesticides have been extensively used to prevent microbial diseases. Their toxicity and reduced efficacy, however, have encouraged investigators to develop alternatives. Alternatives based on microbial biopesticides tend to be safer and more environmentally benign than conventional pesticides. In recent years, formulations based on biopesticides have progressively increased in number and diversity and have attracted commercial interest. Understanding the mechanisms by which biopesticides control the disease is fundamental to achieving optimal disease control. Biocontrol mechanisms can be divided into two main categories: those related to the ability to inhibit pathogens or their virulence factors, and those that enhance host plant fitness and induce disease resistance. Here, the first type of strategy is reviewed, which is directly mediated by physical contact between biocontrol agents and pathogens or indirectly by exposure of a pathogen to antimicrobial or microbial-inhibiting compounds produced by the microbial antagonist. Mechanisms involving physical contact include mycophagy, destruction of pathogenic bacteria by bacteriophages or predation, and disease inhibition by topical applications of specific dsRNA. Indirect mechanisms that do not involve direct contact with a pathogen include the production of antimicrobial compounds, competition, and virulence factor suppression by quorum quenching. These topics are reviewed and discussed.

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