微塑料
环境化学
微生物降解
化学
降级(电信)
环境修复
细菌
矿化(土壤科学)
污染
微生物种群生物学
杀虫剂
土壤污染
环境科学
生物利用度
蜜露
生物量(生态学)
环境污染
生物降解
土壤污染物
微生物
微生物代谢
食品科学
污染物
土工试验
农业
土壤生物学
制浆造纸工业
土壤有机质
生物累积
作者
Duo Jin,Xing-Wei Luo,Jun‐Sheng Lu,Jia Wu,Xin-Yu Xiang,Desire Girimpuhwe,Yang Liu,Xiao-Fan Xu,Wei-Sheng Liu,Quan-Xiang Wu,Duo Jin,Xing-Wei Luo,Jun‐Sheng Lu,Jia Wu,Xin-Yu Xiang,Desire Girimpuhwe,Yang Liu,Xiao-Fan Xu,Wei-Sheng Liu,Quan-Xiang Wu
标识
DOI:10.1021/acs.jafc.5c12274
摘要
The extensive accumulation of polyethylene microplastics (PE-MPs) and their additives in soil is recognized as significant global agricultural pollutants, prompting efforts to identify microbes and enzymes for their biodegradation. This study developed a new compound microbial agent (CMA) that effectively decomposes PE-MPs and enhances plant health. The effects of CMA on plant growth, soil properties, and PE-MP degradation were investigated in the honeydew melon and eggplant fields. Density flotation with image analysis was used for the quantification of CMA's remediation efficacy, while gas chromatography-mass spectrometry was used for soil MP abundance analysis. The results showed that CMA reduced MP abundance, degraded the antioxidant Irganox 1010, and altered the microbial community by increasing the number of beneficial bacteria. A variety of key enzymes and pathways sped up the degradation of PE-MPs pollutants, with bacteria enhancing the expression of metabolic pathways associated with aromatic compound degradation (e.g., PWY-6397, PWY-5266, and PWY-5273) and fungi supporting microbial energy. Furthermore, CMA improved plant growth and soil properties.
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