Natural Attenuation of Nonionic Surfactants Used in Hydraulic Fracturing Fluids: Degradation Rates, Pathways, and Mechanisms

Katie M. Heyob; Jens Blotevogel; Michael Brooker; Morgan V. Evans; John J. Lenhart; Justin Wright; Regina Lamendella; Thomas Borch; Paula J. Mouser

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Natural Attenuation of Nonionic Surfactants Used in Hydraulic Fracturing Fluids: Degradation Rates, Pathways, and Mechanisms

机译：水力压裂液中使用的非离子表面活性剂的自然衰减：降解速率，途径和机理

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Hydraulic fracturing fluids are injected into shales to extend fracture networks that enhance oil and natural gas production from unconventional reservoirs. Here we evaluated the biodegradability of three widely used nonionic polyglycol ether surfactants (alkyl ethoxylates (AEOs), nonylphenol ethoxylates (NPEOs), and polypropylene glycols (PPGs)) that function as weatherizers, emulsifiers, wetting agents, and corrosion inhibitors in injected fluids. Under anaerobic conditions, we observed complete removal of AEOs and NPEOs from solution within 3 weeks regardless of whether surfactants were part of a chemical mixture or amended as individual additives. Microbial enzymatic chain shortening was responsible for a shift in ethoxymer molecular weight distributions and the accumulation of the metabolite acetate. PPGs bioattenuated the slowest, producing sizable concentrations of acetone, an isomer of propionaldehyde. Surfactant chain shortening was coupled to an increased abundance of the diol dehydratase gene cluster (pduCDE) in Firmicutes metagenomes predicted from the 16S rRNA gene. The pduCDE enzymes are responsible for cleaving ethoxylate chain units into aldehydes before their fermentation into alcohols and carboxylic acids. These data provide new mechanistic insight into the environmental fate of hydraulic fracturing surfactants after accidental release through chain shortening and biotransformation, emphasizing the importance of compound structure disclosure for predicting biodegradation products.

机译：将水力压裂液注入页岩中，以扩展裂缝网络，从而增强非常规油藏的石油和天然气产量。在这里，我们评估了三种广泛使用的非离子型聚乙二醇醚表面活性剂（烷基乙氧基化物（AEOs），壬基酚乙氧基化物（NPEOs）和聚丙二醇（PPGs））的生物降解性，这些表面活性剂在注入流体中起着耐候剂，乳化剂，湿润剂和缓蚀剂的作用。在厌氧条件下，无论表面活性剂是化学混合物的一部分还是作为单独的添加剂进行了修改，我们都观察到在3周内可以从溶液中完全去除AEO和NPEO。微生物酶促链缩短是乙氧基聚合物分子量分布变化和乙酸代谢产物积累的原因。 PPG会最慢地生物衰减，从而产生可观浓度的丙酮（丙醛的异构体）。表面活性剂链缩短与16S rRNA基因预测的Firmicutes元基因组中二醇脱水酶基因簇（pduCDE）的丰度增加相关。 pduCDE酶负责将乙氧基化链单元分解为醛，然后再发酵为醇和羧酸。这些数据为通过链缩短和生物转化意外释放后的水力压裂表面活性剂的环境命运提供了新的机械原理，强调了化合物结构公开对于预测生物降解产物的重要性。

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《Environmental Science & Technology》 |2017年第23期|13985-13994|共10页
作者
Katie M. Heyob; Jens Blotevogel; Michael Brooker; Morgan V. Evans; John J. Lenhart; Justin Wright; Regina Lamendella; Thomas Borch; Paula J. Mouser;
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Department of Civil, Environmental, and Geodetic Engineering, The Ohio State University, Columbus, Ohio 43210, United States;

Department of Civil and Environmental Engineering;

Department of Civil, Environmental, and Geodetic Engineering, The Ohio State University, Columbus, Ohio 43210, United States;

Department of Civil, Environmental, and Geodetic Engineering, The Ohio State University, Columbus, Ohio 43210, United States;

Department of Civil, Environmental, and Geodetic Engineering, The Ohio State University, Columbus, Ohio 43210, United States;

Department of Biology, Juniata College, Huntingdon, Pennsylvania 16652, United States;

Department of Biology, Juniata College, Huntingdon, Pennsylvania 16652, United States;

Department of Civil and Environmental Engineering,Department of Soil and Crop Science,Department of Chemistry, Colorado State University, Fort Collins, Colorado 80523, United States;

Department of Civil, Environmental, and Geodetic Engineering, The Ohio State University, Columbus, Ohio 43210, United States,Department of Civil and Environmental Engineering, University of New Hampshire, Durham, New Hampshire 03824, United States;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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Natural Attenuation of Nonionic Surfactants Used in Hydraulic Fracturing Fluids: Degradation Rates, Pathways, and Mechanisms

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