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一株假单胞菌强化的好氧反硝化反应器处理煤基乙二醇工业废水过程中的氮去除及微生物群落变化

Nitrogen removal and microbial community shift in an aerobic denitrification reactor bioaugmented with a Pseudomonas strain for coal-based ethylene glycol industry wastewater treatment.

作者信息

Du Cong, Cui Chong-Wei, Qiu Shan, Shi Sheng-Nan, Li Ang, Ma Fang

机构信息

State Key Laboratory of Urban Water Resource and Environment, Harbin Institute of Technology (SKLUWRE, HIT), Harbin, 150090, China.

School of Life Science, Liaoning Normal University, Dalian, 116029, China.

出版信息

Environ Sci Pollut Res Int. 2017 Apr;24(12):11435-11445. doi: 10.1007/s11356-017-8824-9. Epub 2017 Mar 18.

DOI:10.1007/s11356-017-8824-9
PMID:28316045
Abstract

An aerobic denitrification system, initially bioaugmented with Pseudomonas strain T13, was established to treat coal-based ethylene glycol industry wastewater, which contained 3219 ± 86 mg/L total nitrogen (TN) and 1978 ± 14 mg/L NO-N. In the current study, a stable denitrification efficiency of 53.7 ± 4.7% and nitrite removal efficiency of 40.1 ± 2.7% were achieved at different diluted influent concentrations. Toxicity evaluation showed that a lower toxicity of effluent was achieved when industry wastewater was treated by stuffing biofilm communities compared to suspended communities. Relatively high TN removal (~50%) and chemical oxygen demand removal percentages (>65%) were obtained when the influent concentration was controlled at below 50% of the raw industry wastewater. However, a further increased concentration led to a 20-30% decrease in nitrate and nitrite removal. Microbial network evaluation showed that a reduction in Pseudomonas abundance was induced during the succession of the microbial community. The napA gene analysis indicated that the decrease in nitrate and nitrite removal happened when abundance of Pseudomonas was reduced to less than 10% of the overall stuffing biofilm communities. Meanwhile, other denitrifying bacteria, such as Paracoccus, Brevundimonas, and Brucella, were subsequently enriched through symbiosis in the whole microbial network.

摘要

建立了一个好氧反硝化系统,最初用假单胞菌T13菌株进行生物强化,以处理煤基乙二醇工业废水,该废水含有3219±86mg/L的总氮(TN)和1978±14mg/L的NO-N。在本研究中,在不同稀释进水浓度下,反硝化效率稳定在53.7±4.7%,亚硝酸盐去除效率稳定在40.1±2.7%。毒性评估表明,与悬浮群落相比,用填充生物膜群落处理工业废水时,出水毒性更低。当进水浓度控制在原工业废水的50%以下时,可获得相对较高的TN去除率(约50%)和化学需氧量去除率(>65%)。然而,浓度进一步增加会导致硝酸盐和亚硝酸盐去除率下降20-30%。微生物网络评估表明,在微生物群落演替过程中,假单胞菌丰度降低。napA基因分析表明,当假单胞菌丰度降至整个填充生物膜群落的10%以下时,硝酸盐和亚硝酸盐去除率下降。同时,其他反硝化细菌,如副球菌、短波单胞菌和布鲁氏菌,随后在整个微生物网络中通过共生而富集。

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