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联合微生物菌群接种与刺槐种植对废弃钻井岩屑生物修复有效。

Combined Microbial Consortium Inoculation and Black Locust Planting Is Effective in the Bioremediation of Waste Drill Cuttings.

作者信息

Liu Hanjun, Chen Lirong, Wang En T, Liu Yihao, Zhang Lingzi, Zhao Ke, Gu Yunfu, Yu Xiumei, Ma Menggen, Penttinen Petri, Zhang Xiaoping, Huang Min, Deng Liangji, Chen Qiang

机构信息

College of Resource Sciences and Technology, Sichuan Agricultural University, Chengdu, China.

Safety and Environmental Protection Quality Supervision and Testing Research Institute, CNPC Chuanqing Drilling Engineering Co. Ltd., Guanghan, China.

出版信息

Front Microbiol. 2020 Sep 30;11:536787. doi: 10.3389/fmicb.2020.536787. eCollection 2020.

DOI:10.3389/fmicb.2020.536787
PMID:33101222
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7555700/
Abstract

Waste drill cuttings (WDCs), produced during gas and oil drilling consisting of 80% rock cuttings and 20% drilling muds, are an increasingly potent source of environmental pollution. We studied the efficiency of bioaugmentation and phytoremediation to remediate WDCs in an experiment where WDCs were incubated in a greenhouse for 120 days with and without black locust () plant and with or without bacterial and fungal consortium inoculant. The pollutant removal rates were highest in inoculated and planted treatment, followed by inoculated treatment and planted treatment. The small decrease in contaminant level in the control treatment suggested that indigenous microorganisms in WDCs had little pollutant degradation capability. In the inoculated and planted treatments, after 120 days, the germination rate of red clover seeds was on the same level as in the natural soil, showing a marked decrease in the ecotoxicity of WDC. Both the bacterial and fungal richness and bacterial diversity increased in all the treatments over time, whereas fungal diversity increased only in the not-inoculated treatments. The activity of laccase enzyme played a key role in the bioremediation process. The enzyme activities were mostly governed by inoculated consortium and soil bacterial community, and black locust affected the bioremediation mainly through its effect on N content that further affected bacterial and fungal communities.

摘要

废钻井岩屑(WDCs)是在油气钻探过程中产生的,由80%的岩石碎屑和20%的钻井泥浆组成,是一种日益严重的环境污染源。我们在一项实验中研究了生物强化和植物修复对WDCs的修复效率,该实验将WDCs在温室中培养120天,设置有或没有刺槐()植物以及有或没有细菌和真菌联合体接种剂的处理组。污染物去除率在接种并种植处理组中最高,其次是接种处理组和种植处理组。对照处理组中污染物水平的小幅下降表明WDCs中的土著微生物几乎没有污染物降解能力。在接种并种植处理组中,120天后,红三叶草种子的发芽率与天然土壤中的发芽率处于同一水平,表明WDC的生态毒性显著降低。随着时间的推移,所有处理组中的细菌和真菌丰富度以及细菌多样性均增加,而真菌多样性仅在未接种处理组中增加。漆酶的活性在生物修复过程中起关键作用。酶活性主要受接种的联合体和土壤细菌群落的控制,刺槐主要通过其对氮含量的影响进而影响细菌和真菌群落来影响生物修复。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/edbf/7555700/258f6040a45d/fmicb-11-536787-g007.jpg
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本文引用的文献

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Front Microbiol. 2019 Dec 5;10:2827. doi: 10.3389/fmicb.2019.02827. eCollection 2019.
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