Bioactive compounds from bacterial and fungal agents for the control of phytopathogenic nematodes: mechanisms of action, interactions, and applications

IF 1 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Marcos Vera-Morales, R. Castañeda-Ruiz, D. Sosa, Carlos Arias-Vega, Adela Quevedo, María F. Ratti
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引用次数: 0

Abstract

Phytopathogenic nematodes are a threat for agriculture, they cause plant diseases and economic losses worldwide. Currently, the pursuit of compounds of biological origin for nematode biocontrol has become a priority as an environmentally friendly alternative. Microorganisms-derived compounds have several strategies to reduce the populations of infectious juvenile nematodes. Although microorganisms and their metabolites are the focus of literature reports reviews on nematicidal control, interactions between fungi, bacteria, and nematodes, as well as the compounds that are generated in such interactions, are not highlighted. The aim of this review was to discuss the latest advances on chemical compounds secreted by microorganisms and their interaction mechanisms for biological control of phytopathogenic nematodes. Results were organized based on: i) mode of action, ii) infection process, iii) nematicide compounds, iv) interactions and field applications, and v) current challenges. The scope of this review contributes to a better comprehension of the versatility of bacterial and fungal compounds for their use in the development of management plans for nematode control.
细菌和真菌制剂中用于控制植物病原线虫的生物活性化合物:作用机制、相互作用和应用
植物病原线虫是对农业的威胁,它们在全球范围内造成植物疾病和经济损失。目前,作为一种环境友好型的替代方法,寻找用于线虫生物防治的生物源化合物已成为当务之急。微生物衍生化合物有多种策略来减少传染性幼线虫的数量。尽管微生物及其代谢物是杀线虫控制文献报告评论的重点,但真菌、细菌和线虫之间的相互作用以及在这种相互作用中产生的化合物却没有得到强调。本综述旨在讨论微生物分泌的化合物及其相互作用机制在植物病原线虫生物防治方面的最新进展。研究结果按以下几个方面编排:i) 作用模式;ii) 感染过程;iii) 杀线虫化合物;iv) 相互作用和实地应用;v) 当前面临的挑战。本综述有助于更好地理解细菌和真菌化合物在制定线虫控制管理计划中的多功能性。
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来源期刊
Scientia Agropecuaria
Scientia Agropecuaria AGRICULTURE, DAIRY & ANIMAL SCIENCE-
CiteScore
3.50
自引率
0.00%
发文量
27
审稿时长
12 weeks
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