微生物种群生物学
环境化学
降级(电信)
微生物降解
环境科学
双酚A
生态系统
土壤退化
蛋白质细菌
化学
土壤水分
生态学
土壤科学
生物
微生物
细菌
16S核糖体RNA
有机化学
基因
环氧树脂
遗传学
计算机科学
生物化学
电信
作者
Lili Zhang,Yanan Cheng,Yiguang Qian,Tengda Ding,Juying Li
标识
DOI:10.1016/j.scitotenv.2022.157451
摘要
Bisphenol S (BPS) has been widely applied as a replacement for BPA in industrial application, leading to the frequent detection in the environment. However, its impact on soil microbial communities has not been well reported. Here, effects of BPS exposure on soil microbial communities in the presence of polystyrene (PS) microplastics were revealed. Rapid degradation of BPS occurred with a degradation rate of up to 98.9 ± 0.001 % at 32 d. The presence of BPS reduced the diversity of soil microbial communities, and changed community structures. After BPS treatment, Proteobacteria, and its members Methylobacillus, Rhodobacteraceae and Mesorhizobium became dominant, and were considered as potential biomarkers indicating BPS contamination. Co-occurrence network analysis revealed the increased relationships of certain groups of microbes after BPS treatment. The resultant low stability and resilience towards environment disturbance of microbial community networks implied the biotoxicity of BPS towards soil ecosystems. The degradation and biotoxicity of BPS (p > 0.05) in soil was not affected by the presence of PS. Our findings showed that exposure to BPS could reshape soil microbial communities and impair the robustness of microbial co-occurrence networks.
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