杨正义, 陈慧心, 钟国华, 刘婕. 基于细菌生物膜的农药残留微生物降解研究进展[J]. 农药学学报, 2024, 26(4): 692-702. DOI: 10.16801/j.issn.1008-7303.2024.0046
    引用本文: 杨正义, 陈慧心, 钟国华, 刘婕. 基于细菌生物膜的农药残留微生物降解研究进展[J]. 农药学学报, 2024, 26(4): 692-702. DOI: 10.16801/j.issn.1008-7303.2024.0046
    YANG Zhengyi, CHEN Huixin, ZHONG Guohua, LIU Jie. Research progress on microbial degradation of pesticide residues based on bacterial biofilm[J]. Chinese Journal of Pesticide Science, 2024, 26(4): 692-702. DOI: 10.16801/j.issn.1008-7303.2024.0046
    Citation: YANG Zhengyi, CHEN Huixin, ZHONG Guohua, LIU Jie. Research progress on microbial degradation of pesticide residues based on bacterial biofilm[J]. Chinese Journal of Pesticide Science, 2024, 26(4): 692-702. DOI: 10.16801/j.issn.1008-7303.2024.0046

    基于细菌生物膜的农药残留微生物降解研究进展

    Research progress on microbial degradation of pesticide residues based on bacterial biofilm

    • 摘要: 农田土壤中农药残留污染是影响农产品安全生产的关键因素。微生物降解作为一种资源丰富、高效环保、操作便捷的农药残留降解技术,却由于易受环境因素影响,导致其在田间实际应用效果不显著。如何稳定和提高降解菌的田间活性,已成为制约农药残留生物降解技术产业化的“瓶颈”。生物膜是细菌通过分泌多糖和蛋白质等胞外聚合物,将其自身包绕其中并黏附于固体表面而形成的一种复杂的群落结构。基于土壤环境多相、分散等特征,微生物在土壤中以生物膜态存在,在增强细菌抵御复杂环境胁迫、提高农药降解能力、维持土壤健康等方面具有积极作用,弥补了传统游离菌直投式修复技术效率低、持效期短、对低浓度农药残留不敏感等方面的不足。近年来,细菌生物膜的研究成果已应用在水体、土壤污染生物修复领域且颇具成效。在此基础上,本文系统阐述了细菌生物膜降解土壤中农药残留的作用机制,解析了利用活性细菌生物膜促进农药残留污染修复的方式和优势,并提出了基于细菌生物膜的强化土壤抵御农药胁迫能力、促进土壤健康的创新研究思路,可为净化农产品产地环境、提升农产品质量安全提供参考。

       

      Abstract: Pesticide residue pollution in farmland soil is a key factor affecting the safe production of agricultural products. Microbial degradation is a resourceful, efficient, environmentally friendly, and convenient pesticide residue degradation technology. However, it is not significant effective in the practical field application due to its susceptibility to environmental factors. Therefore, stabilizing and enhancing the field activity of degrading bacteria has become a bottleneck in the industrialization of pesticide residue biodegradation technology. Biofilm is a complex community structure formed by bacteria through the secretion of polysaccharides and proteins and other extracellular polymers, which can surround themselves and adhere to the solid surface. Microorganisms exist in the form of biofilms in soil due to the multi-phase and dispersed characteristics of soil environment. The biofilms plays a positive role in enhancing bacteria's resistance to complex environmental stress, improving the degradation ability of pesticide residues, and maintaining soil health. It overcomes the shortcomings of the traditional free-living bacteria direct-injection remediation technology, such as low efficiency, short persistence period, and insensitivity to low concentration pesticide residues. In recent years, research on bacterial biofilms has been applied to bioremediation of water and soil pollution with significant success. On this basis, this article systematically expounds on the degradation mechanism of bacteria biofilm for pesticide residues in soil, analyzes the advantages and ways of using active bacterial biofilms to promote the soil remediation efficiency of pesticide residue pollutions, and proposes innovative research ideas based on bacterial biofilms to enhance soil resistance to pesticide stress and promote soil health. This article provides reference for improving the environment of the production areas of agricultural products and improving the quality and safety of agricultural products.

       

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