模拟河流生物反应器修复污染水源中的生物膜形成与微生物群落分析。

Biofilm formation and microbial community analysis of the simulated river bioreactor for contaminated source water remediation.

机构信息

Department of Environmental Engineering, Zhejiang University, Hangzhou, People's Republic of China.

出版信息

Environ Sci Pollut Res Int. 2012 Jun;19(5):1584-93. doi: 10.1007/s11356-011-0649-3. Epub 2011 Nov 27.

PMID:22120124

Abstract

BACKGROUND, AIM, AND SCOPE: The start-up pattern of biofilm remediation system affects the biofilm characteristics and operating performances. The objective of this study was to evaluate the performances of the contaminated source water remediation systems with different start-up patterns in view of the pollutants removal performances and microbial community succession.

METHODS

The operating performances of four lab-scale simulated river biofilm reactors were examined which employed different start-up methods (natural enrichment and artificial enhancement via discharging sediment with influent velocity gradient increase) and different bio-fillers (Elastic filler and AquaMats® ecobase). At the same time, the microbial communities of the bioreactors in different phases were analyzed by polymerase chain reaction, denaturing gradient gel electrophoresis, and sequencing.

RESULTS AND DISCUSSION

The pollutants removal performances became stable in the four reactors after 2 months' operation, with ammonia nitrogen and permanganate index (COD(Mn)) removal efficiencies of 84.41-94.21% and 69.66-76.60%, respectively. The biomass of mature biofilm was higher in the bioreactors by artificial enhancement than that by natural enrichment. Microbial community analysis indicated that elastic filler could enrich mature biofilm faster than AquaMats®. The heterotrophic bacteria diversity of biofilm decreased by artificial enhancement, which favored the ammonia-oxidizing bacteria (AOB) developing on the bio-fillers. Furthermore, Nitrosomonas- and Nitrosospira-like AOB coexisted in the biofilm, and Pseudomonas sp., Sphaerotilus sp., Janthinobacterium sp., Corynebacterium aurimucosum were dominant in the oligotrophic niche.

CONCLUSION

Artificial enhancement via the combination of sediment discharging and influent velocity gradient increasing could enhance the biofilm formation and autotrophic AOB enrichment in oligotrophic niche.

摘要

背景、目的和范围：生物膜修复系统的启动模式会影响生物膜特性和运行性能。本研究的目的是从污染物去除性能和微生物群落演替的角度评估采用不同启动方式（通过排放具有流速梯度增加的底泥进行自然富集和人工强化）和不同生物填料（弹性填料和 AquaMats® ecobase）的受污染原水修复系统的性能。

方法

研究考察了四个实验室规模模拟河流生物膜反应器的运行性能，它们采用了不同的启动方法（通过排放具有流速梯度增加的底泥进行自然富集和人工强化）和不同的生物填料（弹性填料和 AquaMats® ecobase）。同时，通过聚合酶链反应、变性梯度凝胶电泳和测序分析了不同阶段生物反应器中的微生物群落。

结果与讨论

四个反应器经过 2 个月的运行后，污染物去除性能稳定，氨氮和高锰酸盐指数（COD（Mn））去除率分别为 84.41%-94.21%和 69.66%-76.60%。人工强化的生物反应器中成熟生物膜的生物量高于自然富集。微生物群落分析表明，弹性填料比 AquaMats®更快地富集成熟生物膜。人工强化会降低生物膜中的异养细菌多样性，有利于氨氧化细菌（AOB）在生物填料上的生长。此外，生物膜中存在亚硝化单胞菌和硝化螺旋菌样 AOB，寡营养位优势菌为假单胞菌、硫螺旋菌、节杆菌和金杆菌。

结论

通过排放底泥和增加流速梯度相结合的人工强化可以促进生物膜的形成和贫营养位自养 AOB 的富集。

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模拟河流生物反应器修复污染水源中的生物膜形成与微生物群落分析。

Biofilm formation and microbial community analysis of the simulated river bioreactor for contaminated source water remediation.

机构信息

出版信息

METHODS

RESULTS AND DISCUSSION

CONCLUSION

方法

结果与讨论

结论

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