Agroactive volatile organic compounds from microbes: Chemical diversities and potentials of application in crop protection

Kaimei Wang, Shaoyong Ke, Wei Fang, Fang Liu, Zhigang Zhang
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引用次数: 1

Abstract

Synthetic chemicals have been widely used in modern agriculture as fertilizer, plant growth regulators and pesticides. Although the chemical inputs improved the crop production, it is well known about their negative effects, such as environmental residues in water, soil and animals, pest resistance and resurgence and the residues in agricultural produces. The demands for safer food and more friendly environment are now more preferred by humankind in the world. Microbes have already become an alternate for chemical inputs in some aspects in agriculture. The microbes can produce very diverse volatile organic compounds (mVOCs) which play important roles in the interactions between plant and microbes, or among intraspecies or interspecies of microbes. Many mVOCs showed diverse agroactivities, such as insecticidal, bactericidal, fungicidal, herbicidal, plant growth promotion and abiotic stress-tolerance inducing activities. The agroactive mVOCs have diverse structure-types, such as alkane, alkenes, alcohols, aldehydes, ketones, carboxylic acid, esters and lactones, ethers, aromatic ring, terpenes, heterocycles, sulphur-containing VOCs. The promising agroactive properties make it possible to apply mVOCs and their producing microorganisms or synthetic mimics or agroactive mVOCs in crop protection, and so this review focuses on the chemical diversity, agroactivities, and potential application of mVOCs.

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微生物中的农业活性挥发性有机化合物:化学多样性及其在作物保护中的应用潜力
合成化学品在现代农业中被广泛用作肥料、植物生长调节剂和杀虫剂。尽管化学投入改善了作物生产,但众所周知,它们的负面影响,如水、土壤和动物中的环境残留物、害虫的抗性和死灰复燃以及农产品中的残留物。对更安全的食物和更友好的环境的需求现在更受世界人类的青睐。在农业的某些方面,微生物已经成为化学物质输入的替代品。微生物可以产生非常多样化的挥发性有机化合物(mVOCs),这些化合物在植物与微生物之间、种内或种间微生物之间的相互作用中发挥着重要作用。许多mVOCs表现出不同的农业活性,如杀虫、杀菌、杀菌、除草、促进植物生长和诱导非生物胁迫的活性。农业活性mVOCs具有多种结构类型,如烷烃、烯烃、醇、醛、酮、羧酸、酯和内酯、醚、芳环、萜烯、杂环、含硫VOCs。mVOCs及其产生微生物或合成模拟物或具有农业活性的mVOCs具有良好的农业活性,有可能应用于作物保护,因此本文重点介绍了mVOCs的化学多样性、农业活性和潜在应用。
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