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多环芳烃污染土壤原位表面活性剂强化生物修复过程中微生物群落结构的变化

Shifts in microbial community structure during in situ surfactant-enhanced bioremediation of polycyclic aromatic hydrocarbon-contaminated soil.

作者信息

Wang Lingwen, Li Feng, Zhan Yu, Zhu Lizhong

机构信息

Department of Environmental Science, Zhejiang University, Hangzhou, Zhejiang, 310058, China.

Zhejiang Provincial Key Laboratory of Organic Pollution Process Control, Hangzhou, 310058, China.

出版信息

Environ Sci Pollut Res Int. 2016 Jul;23(14):14451-61. doi: 10.1007/s11356-016-6630-4. Epub 2016 Apr 11.

DOI:10.1007/s11356-016-6630-4
PMID:27068902
Abstract

This study aims to reveal the microbial mechanism of in situ surfactant-enhanced bioremediation (SEBR). Various concentrations of rhamnolipids, Tween 80, and sodium dodecyl benzenesulfonate (SDBS) were separately sprayed onto soils contaminated with polycyclic aromatic hydrocarbons (PAHs) for years. Within 90 days, the highest level of degradation (95 %) was observed in the soil treated with rhamnolipids (10 mg/kg), followed by 92 % degradation with Tween 80 (50 mg/kg) and 90 % degradation with SDBS (50 mg/kg). The results of the microbial phospholipid fatty acids (PLFAs) suggest that bacteria dominated the enhanced PAH biodegradation (94 % of the maximum contribution). The shift of bacterial community structure during the surfactant treatment was analyzed by using the 16S rRNA gene high-throughput sequencing. In the presence of surfactants, the number of the operational taxonomic units (OTUs) associated with Bacillus, Pseudomonas, and Sphingomonas increased from 2-3 to 15-30 % at the end of the experiment (two to three times of control). Gene prediction with phylogenetic investigation of communities by reconstruction of unobserved states (PICRUSt) shows that the PAH-degrading genes, such as 1-hydroxy-2-naphthoate dioxygenase and PAH dioxygenase large subunit, significantly increased after the surfactant applications (p < 0.05). The findings of this study provide insights into the surfactant-induced shifts of microbial community, as well as critical factors for efficient bioremediation.

摘要

本研究旨在揭示原位表面活性剂强化生物修复(SEBR)的微生物机制。将不同浓度的鼠李糖脂、吐温80和十二烷基苯磺酸钠(SDBS)分别喷洒到受多环芳烃(PAHs)污染多年的土壤上。在90天内,观察到用鼠李糖脂(10毫克/千克)处理的土壤中降解水平最高(95%),其次是吐温80(50毫克/千克)处理的土壤降解率为92%,SDBS(50毫克/千克)处理的土壤降解率为90%。微生物磷脂脂肪酸(PLFAs)的结果表明,细菌在PAH生物降解增强过程中占主导地位(最大贡献的94%)。利用16S rRNA基因高通量测序分析了表面活性剂处理过程中细菌群落结构的变化。在表面活性剂存在的情况下,与芽孢杆菌、假单胞菌和鞘氨醇单胞菌相关的可操作分类单元(OTUs)数量在实验结束时从2%-3%增加到15%-30%(是对照的两到三倍)。通过未观察状态重建的群落系统发育研究(PICRUSt)进行基因预测表明,表面活性剂施用后,多环芳烃降解基因,如1-羟基-2-萘酸双加氧酶和多环芳烃双加氧酶大亚基,显著增加(p < 0.05)。本研究结果为表面活性剂诱导的微生物群落变化以及高效生物修复的关键因素提供了见解。

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