Impact of Fluxapyroxad and Mefentrifluconazole on Microbial Succession and Metabolic Regulation in Rice Under Field Conditions
文献类型: 外文期刊
作者: Zhang, Changpeng 1 ; Fang, Nan 1 ; Liang, Chizhou 2 ; Wang, Xiangyun 1 ; Li, Yanjie 1 ; He, Hongmei 1 ; Zhao, Xueping 1 ; Luo, Yuqin 1 ; Jiang, Jinhua 1 ;
作者机构: 1.Zhejiang Acad Agr Sci, Inst Agroprod Safety & Nutr, State Key Lab Managing Biot & Chem Threats Qual &, Rural Affairs Key Lab Pesticide Residue Detect, Hangzhou 310021, Peoples R China
2.Plant Protect Quarantine & Pesticide Management St, Hangzhou 310020, Peoples R China
关键词: brown rice; residue; bacterial community; differentially expressed metabolites
期刊名称:FOODS ( 影响因子:5.1; 五年影响因子:5.6 )
ISSN:
年卷期: 2025 年 14 卷 11 期
页码:
收录情况: SCI
摘要: This study systematically evaluated the residual behavior of fluxapyroxad (FXP) and mefentrifluconazole (MFZ) in rice-soil systems, alongside their soil and metabolic impacts. Analytical methods validated via linear regression (0.0001-0.05 mg/L) complied with EU guidelines, demonstrating recoveries of 71.97-114.96%, RSDs <= 12.12%, and effective mitigation of matrix effects (-85.08% to -76.97%) using matrix-matched calibration. Residual dissipation followed first-order kinetics, with half-lives (T-1/2) spanning 10.83-21.00 d (FXP) and 23.10-57.76 d (MFZ). Notably, MFZ exhibited prolonged persistence in brown rice (T-1/2 = 57.76 d), though final residues (0.031 +/- 0.001 mu g/g FXP; 0.011 +/- 0.0003 mu g/g MFZ) remained below regulatory limits (China: 1 mg/kg; CAC: 5 mg/kg). Microbial analysis revealed transient diversity loss in rhizosphere communities (Chao1 index, p < 0.05), recovering by 21 d, while endophytes displayed resilience linked to plant metabolites. Enrichment of degraders (e.g., Sphingomonas) contrasted with suppression of nitrogen-fixing Bradyrhizobium, indicating functional trade-offs. Metabolomic profiling identified 3512 metabolites, with 332 and 173 differentially expressed metabolites at 7 d (S) and 21 d (T), dominated by lipids, benzenoids, and phenylpropanoids. Key metabolic shifts included a 2.11-fold increase in coumarin and elevated L-aspartic acid, highlighting adaptive responses via phenylalanine and TCA cycle pathways. Correlation analyses linked stress-tolerant endophytes (Azorhizobium) to defense-related metabolites (e.g., coumarin), suggesting microbial modulation of plant resilience. These findings emphasize the need for integrated strategies combining residue monitoring, microbial management, and metabolic insights to mitigate agrochemical risks in sustainable agriculture.
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