首页|期刊导航|农药学学报|促生-降解菌群对复合农药污染修复及对蔬菜根际微生态的影响

促生-降解菌群对复合农药污染修复及对蔬菜根际微生态的影响OA

Remediation of combined pesticide contamination by plant growth-promoting and degrading consortia and their effects on vegetable rhizosphere microecology

中文摘要英文摘要

为探究多功能菌群对蔬菜-土壤系统复合农药污染的修复效果及对蔬菜根际微生态的影响,以复合农药污染区域的青菜根际分离筛选的菌株为材料,构建了 4 种功能复合菌群:促生型(T1)、降解型(T2)、促生-降解双效型(T3)、全功能复合型(T4).通过盆栽试验系统评估了T1~T4 菌群对土壤-青菜系统中农药复合污染的修复效果及对青菜品质的影响,并结合高通量测序解析其微生态机制.结果显示:T3 处理对土壤和青菜中农药的降解效率最高,较 CK 平均提高 44.3%和 49.1%,显著优于其他菌群处理组(P<0.05);T3 处理显著促进青菜生长(生物量增加 76.5%)、改善青菜品质(维生素 C、可溶性糖及总蛋白含量分别增加 15.4%、17.1%和15.2%),并提高土壤肥力;根际微生态分析显示,T3 处理特异性富集伯克霍尔德菌属(Burkholderia)和马赛菌属(Massilia),其相对丰度较 T1 和 T2 组分别提高约 3 倍和 2 倍,且与农药降解率呈显著正相关.结果表明,促生-降解复合菌群通过协同调控根际功能微生物群落,实现农药高效降解与作物品质提高的双重效应,为农田复合农药污染原位修复提供了理论支撑和新的技术途径.

To investigate the efficacy of multifunctional microbial consortia in remediating combined pesticide contamination in the vegetable-soil system and their impact on the rhizosphere microecology of vegetables,this study used bacterial strains isolated and screened from the rhizosphere of pak choi cultivated in pesticide-contaminated fields.Four functional microbial consortia were constructed:plant growth-promoting(T1),pesticide-degrading(T2),dual-functional growth-promoting and degrading(T3),and multifunctional integrated(T4).Through pot experiments,the remediation effect of different consortia on combined pesticide contamination in the soil-pak choi system and their influence on plant quality were systematically evaluated,and high-throughput sequencing was employed to elucidate the underlying rhizosphere microecological mechanisms.The results demonstrated that:1)The T3 consortium achieved the highest pesticide degradation efficiency in both soil and pak choi,with an average increase of 44.3%and 49.1%,respectively,compared to the control(CK),demonstrating significantly superior performance compared to the other consortia(P<0.05);2)T3 treatment significantly promoted pak choi growth(biomass increased by 76.5%),improved nutritional quality(with increases of 15.4%,17.1%,and 15.2%in vitamin C,soluble sugar,and total protein content,respectively),and enhanced soil fertility;3)Rhizosphere microbiome analysis revealed that T3 treatment specifically enriched the genera Burkholderia and Massilia.Their relative abundances increased approximately threefold and twofold compared to the T1 and T2 groups,respectively,exhibiting significant positive correlation with pesticide degradation rates.The findings indicate that the growth-promoting and pesticide-degrading microbial consortium(T3)achieves both efficient pesticide degradation and crop quality improvement through the synergistic modulation of rhizosphere functional microbial communities.This study provides a theoretical basis and a promising strategy for the in situ remediation of combined pesticide contamination in agricultural fields.

毛甜甜;董成;陈静;李梅;马丽雅;李勇;余向阳;葛静

南京农业大学 资源与环境科学学院,南京 211800||江苏省农业科学院农产品质量安全与营养研究所,南京 210014江苏省农业科学院农产品质量安全与营养研究所,南京 210014||江苏海洋大学 海洋食品与生物工程学院,江苏 连云港 222005江苏海洋大学 海洋食品与生物工程学院,江苏 连云港 222005江苏省农业科学院农产品质量安全与营养研究所,南京 210014江苏省农业科学院农产品质量安全与营养研究所,南京 210014江苏省农业科学院农产品质量安全与营养研究所,南京 210014江苏省农业科学院农产品质量安全与营养研究所,南京 210014南京农业大学 资源与环境科学学院,南京 211800||江苏省农业科学院农产品质量安全与营养研究所,南京 210014||江苏海洋大学 海洋食品与生物工程学院,江苏 连云港 222005

农业科技

复合菌剂农药污染协同修复蔬菜品质微生态机制

composite microbial inoculantpesticide pollutioncollaborative remediationimprovement of vegetable qualitymicro-ecological mechanism

《农药学学报》 2026 (3)

563-573,11

国家重点研发项目(No.2023YFD1400903). Supported by The National Key Research and Development Program of China(No.2023YFD1400903).

10.16801/j.issn.1008-7303.2026.0032

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