下水道生物膜微生物组组成的变化由于铁和铁的剂量

Q2 Environmental Science Cogent Environmental Science Pub Date : 2019-01-01 DOI:10.1080/23311843.2019.1595293
Bruno Kiilerich, A. Brejnrod, J. Vollertsen, P. Kiilerich
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引用次数: 4

摘要

摘要:在污水输送过程中,由于原核生物活性,硫化物和可能的甲烷形成发生。硫化物有几种有害作用,通常采用沉淀法添加亚铁或三铁来消除硫化物。对该工艺的沉淀化学计量学和效率进行了详细的研究。然而,铁和铁如何影响下水道生物膜的原核种群在很大程度上是未知的。通过16S rDNA V3+ V4区域的测序,对铁处理的力主生物膜的微生物组进行检测,并与未处理的对照组进行对照。观察到几种细菌和古细菌属的分布和丰度差异,表明亚铁和铁的硫化物减排处理不同地改变了下水道力的主要微生物群。此外,功能水平(KEGG同源物,KOs)的差异表明,亚铁和三铁处理可能会减少甲烷的形成,而与异化硫酸盐还原相关的功能似乎不受影响。
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Variations in microbiome composition of sewer biofilms due to ferrous and ferric iron dosing
Abstract During transport of wastewater in force mains, sulphide and possibly methane formation take place due to prokaryotic activity. Sulphide has several detrimental effects and addition of ferrous or ferric iron for abatement by precipitation is commonly applied. Precipitation stoichiometry and efficiency of this process have been investigated in detail. However, it is largely unknown how ferrous and ferric iron influence prokaryotic populations of sewer biofilms. The microbiomes of iron-treated force main biofilms were, together with an untreated control, examined by sequencing of the 16S rDNA V3+ V4 regions. Differences in distribution and abundance of several bacterial and archaeal genera were observed, indicating that treatment with ferrous and ferric iron for sulphide abatement differentially changed sewer force main microbiomes. Furthermore, differences at the functional level (KEGG orthologs, KOs) indicate that ferrous and ferric iron treatment possibly can decrease methane formation, whereas functions related to dissimilatory sulphate reduction seemed unaffected.
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来源期刊
Cogent Environmental Science
Cogent Environmental Science ENVIRONMENTAL SCIENCES-
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