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引用次数: 0
摘要
反硝化对低 C/N 废水处理具有重要意义。本研究将黄铁矿自养反硝化(PAD)与三维生物膜电极反应器(BER)相结合,以提高反硝化效果。对电流对反硝化的影响进行了广泛研究。与 BER 和 PAD 相比,PAD-BER 的硝酸盐去除率分别提高了 14.90% 和 74.64%。此外,PAD-BER 的电子利用率、胞外高分子物质分泌量和反硝化酶活性(NaR 和 NiR)均有所提高。微生物群落研究表明,Dokdonella、Hydrogenophaga、Nitrospira 和 Terrimonas 是反硝化的主要菌属。与 PAD 和 BER 相比,PAD-BER 中关键反硝化基因 narG、nirK、nirS 和 nosZ 的丰度均有所提高。这项研究表明,自养反硝化菌和反硝化基因的增强是 PAD-BER 中反硝化能力提高的原因。实践点:PAD-BER 的硝酸盐去除率、EPS、NAR 和 NIR 活性更高。分析了三种反硝化类型(HD、HAD 和 PAD)及其在 PAD-BER 中的贡献比例。在 PAD-BER 的三种反硝化过程中,HAD 占主导地位。通过检测微生物群落组成和关键反硝化基因,揭示了反硝化机制。
Microbial communities and denitrification mechanisms of pyrite autotrophic denitrification coupled with three-dimensional biofilm electrode reactor.
Denitrification is of great significance for low C/N wastewater treatment. In this study, pyrite autotrophic denitrification (PAD) was coupled with a three-dimensional biofilm electrode reactor (BER) to enhance denitrification. The effect of current on denitrification was extensively studied. The nitrate removal of the PAD-BER increased by 14.90% and 74.64% compared to the BER and the PAD, respectively. In addition, the electron utilization, extracellular polymeric substances secretion, and denitrification enzyme activity (NaR and NiR) were enhanced in the PAD-BER. The microbial communities study displayed that Dokdonella, Hydrogenophaga, Nitrospira, and Terrimonas became the main genera for denitrification. Compared with the PAD and the BER, the abundance of the key denitrification genes narG, nirK, nirS, and nosZ were all boosted in the PAD-BER. This study indicated that the enhanced autotrophic denitrifiers and denitrification genes were responsible for the improved denitrification in the PAD-BER. PRACTITIONER POINTS: PAD-BER displayed higher nitrate removal, EPS, NAR, and NIR activity. The three types of denitrification (HD, HAD, and PAD) and their contribution percentage in the PAD-BER were analyzed. HAD was dominant among the three denitrification processes in PAD-BER. Microbial community composition and key denitrification genes were tested to reveal the denitrification mechanisms.
期刊介绍:
Published since 1928, Water Environment Research (WER) is an international multidisciplinary water resource management journal for the dissemination of fundamental and applied research in all scientific and technical areas related to water quality and resource recovery. WER''s goal is to foster communication and interdisciplinary research between water sciences and related fields such as environmental toxicology, agriculture, public and occupational health, microbiology, and ecology. In addition to original research articles, short communications, case studies, reviews, and perspectives are encouraged.
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