基于微生物的植物寄生线虫生物防治(综述)

A. Homyak, A. Asaturova, N. Sidorov, V. M. Dubyaga
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引用次数: 2

摘要

植物寄生线虫是危害农作物的危险害虫。每年,植物藻藻造成的产量损失高达15%,估计达数十亿美元。本研究的目的是总结和分析有关植物寄生线虫和对其具有拮抗作用的微生物的危害的科学出版物,为进一步开发基于拮抗菌的杀线虫生物修复技术提供依据。本研究的目的是确定最常见的线虫类群,回顾有关具有杀线虫作用的微生物和基于它们的生物制品的信息。这篇综述考虑了线虫的主要代表——植物寄生虫,并指出了它们的栖息地、危害、受影响的作物和感染症状。简要描述了生命周期和系统隶属关系。对有关研究主题的科学出版物的分析表明,许多微生物能够表现出杀线虫活性,直接或间接地影响土壤中的线虫。在文献资料的分析过程中,发现真菌和细菌对植物寄生线虫均有拮抗作用。值得注意的是,这两类微生物都有几种作用机制:捕食、寄生、竞争等。已经发现真菌和细菌合成各种性质的具有杀线虫作用的代谢物:毒素、溶酶、抗生素、铁载体。应该注意的是,微生物拮抗剂能够对不同生命周期阶段的线虫(卵、幼虫和成虫)表现出杀线虫活性。目前,一些以拮抗微生物为基础的商业制剂已成功地应用于各国的农业生产。在分析过程中发现,迄今为止,很少有病毒能够感染线虫;它们的系统联系也已确立。值得注意的是,如果与基于真菌和细菌的生物杀菌剂相比,没有一种基于病毒的生物杀菌剂被开发出来。基于拮抗微生物的生物杀线虫剂的开发是一个有前景的领域,但需要进一步研究植物-线虫-微生物系统的相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
BIOLOGICAL CONTROL OF PHYTOPARASITIC NEMATODES BASED ON MICROORGANISMS (REVIEW)
Phytoparasitic nematodes are dangerous pests of agricultural crops. Annually, yield losses due to damage by phytonematodes are up to 15%, which is estimated at billions of dollars. The aim of the research is to summarize and analyze scientific publications concerning the harmfulness of phytoparasitic nematodes and microorganisms that have an antagonistic effect against them for the further development of biopreparations of nematicidal action based on antagonist bacteria. The study objectives are to identify the most common groups of nematodes, review the information concerning microorganisms that have a nematicidal effect and biological products based on them. The review considers the main representatives of nematodes – plant parasites and notes their habitat, harmfulness, affected crops and symptoms of infection. Brief descriptions of life cycles and systematic affiliation are given. Analysis of scientific publications on the studied topic shows that numerous microorganisms are capable of exhibiting nematicidal activity, directly or indirectly affecting nematodes in the soil. In the course of the analysis of literary sources, it was found that both fungi and bacteria can exhibit an antagonistic effect against phytoparasitic nematodes. It is noted that for both groups of microorganisms, there are several mechanisms of action: predation, parasitism, competition, etc. It has been found that fungi and bacteria synthesize metabolites of various natures with a nematicidal effect: toxins, lytic enzymes, antibiotics, siderophores. It should be noted that microorganisms-antagonist are capable of exhibiting nematicidal activity to nematodes of different stages of the life cycle: eggs, juveniles and adults. Nowadays, some commercial preparations based on antagonist microorganisms are successfully used in agriculture in different countries. During the analysis, it was discovered that to date, few viruses are capable of infecting nematodes; their systematic affiliation has also been established. It is noted that, if compared to bionematicides based on fungi and bacteria, not a single bionematicide based on viruses has been developed. The development of bionematicides based on antagonist microorganisms is a promising area but requires further studies of interactions in the plant-nematode-microorganism system.
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