快速启动部分反硝化和微生物介导的溶解有机物促进亚硝酸盐积累的机制。

Rapid start-up strategy of partial denitrification and microbially driven mechanism of nitrite accumulation mediated by dissolved organic matter.

机构信息

National Engineering Laboratory for Advanced Municipal Wastewater Treatment and Reuse Technology, Key Laboratory of Beijing for Water Quality Science and Water Environment Recovery Engineering, Beijing University of Technology, Beijing 100124, China.

出版信息

Bioresour Technol. 2021 Nov;340:125663. doi: 10.1016/j.biortech.2021.125663. Epub 2021 Jul 26.

DOI:10.1016/j.biortech.2021.125663

PMID:34333347

Abstract

The rapid start-up of Partial denitrification (PD; nitrate to nitrite) was investigated based on the analysis of microbially driven mechanism of nitrite accumulation mediated by Dissolved organic matter (DOM) in this study. The nitrate to Nitrite transformation ratio (NTR) > 90% and effluent nitrate < 5 mg/L were achieved in 17 days by feeding with lower nitrate of ~ 35 mg/L and removing the idling period. And the enhanced nitrite accumulation when applying the above strategy is related to the decreased utilization of the aliphatic DOM during nitrite reduction process. Additionally, the rapid enriched Thauera and OLB13 (37.21%) and inhibited norank_f__Blastocatellaceae (2.86%), and the increased disparity (2.0-fold) between the genes involved in nitrite generation (e.g., narH) and for nitrite reduction (e.g., nirK) jointly contributed to PD start-up. While the genes (e.g., DLD) related to producing electrons from aliphatic DOM also up-regulated by 0.1-fold, which led to the increased nitrate removal and NTR.

摘要

本研究基于对溶解有机质（DOM）介导的亚硝酸盐积累的微生物驱动机制的分析，考察了部分反硝化（PD；硝酸盐到亚硝酸盐）的快速启动。通过以较低的硝酸盐（~35mg/L）进料并去除空转期，在 17 天内实现了硝酸盐到亚硝酸盐的转化率（NTR）>90%，且出水硝酸盐<5mg/L。当应用上述策略时，亚硝酸盐积累的增强与在亚硝酸盐还原过程中减少利用脂肪族 DOM 有关。此外，快速富集了 Thauera 和 OLB13（37.21%）并抑制了 norank_f__Blastocatellaceae（2.86%），并且参与亚硝酸盐生成（例如，narH）和亚硝酸盐还原（例如，nirK）的基因之间的差异增加（2.0 倍）共同促成了 PD 的启动。同时，与从脂肪族 DOM 产生电子相关的基因（例如 DLD）也上调了 0.1 倍，这导致硝酸盐去除率和 NTR 增加。

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快速启动部分反硝化和微生物介导的溶解有机物促进亚硝酸盐积累的机制。

Rapid start-up strategy of partial denitrification and microbially driven mechanism of nitrite accumulation mediated by dissolved organic matter.

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