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输水管道生物膜的生长过程及其对水质的影响 被引量:2

Development of Biofilm and Its Effect on Water Quality in Raw Water Distribution Pipeline
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摘要 运用生物膜反应器(BAR)模拟实际原水输水管道,研究了管道运行时间对生物膜微生物群落结构及出水微污染物浓度的影响。结果表明,随着BAR反应器运行时间的延长,出水p H值和CODMn浓度变化较小,溶解氧、氨氮和总氮浓度逐渐降低,运行180 d时,对氨氮和总氮的去除率最高,分别为41.3%和30.3%,浊度呈曲线变化;采用454高通量测序对运行90、120、180和240 d的四个生物膜样品中微生物群落结构进行分析,发现其微生物群落结构存在较大差异,90d的生物膜的微生物多样性最高,而240 d的生物膜具有最高的微生物丰度;BAR系统水质影响生物膜微生物的群落结构,同样,生物膜中的微生物净化了出水。 Biofilm annular reactors (BARs) were used for simulating practical raw water distribution pipeline, and the effect of operation time on the biofilm microbial community structure and the concentration value and of pollutants in the outlet wa CODM. concentration slightly ter was studied. The results indicated that in the outlet water, pH changed, the dissolved oxygen ( DO), ammonia nitrogen and total nitrogen gradually reduced, the highest removal rate of ammonia nitrogen and total nitrogen occurred in the biofilm for 180 d, which were respectively 41.3% and 30.3%, and the turbidity unsteadily varied. The analysis of 454 high-throughput pyrosequencing showed that there was obvious difference in biofilm microbial community structure among the four biofilm samples which operated for 90 d, 120 d, 180 d and 240 d respectively. The highest microbial diversity was found in the biofilm for 90 d, and the highest richness was detected in the biofilm for 240 d. The biofilm microbial community structure was influenced by water quality. Likewise, the outlet water was purified by the microorganisms in the biofilm.
出处 《中国给水排水》 CAS CSCD 北大核心 2016年第9期39-44,共6页 China Water & Wastewater
基金 科技部科技惠民项目(2013GS370202-003) 国家水体污染控制与治理科技重大专项(2012ZX07404-003-004) 哈尔滨市科技局优秀学科带头人项目(2013RFXXJ054) 国家自然科学基金资助项目(21301041)
关键词 输水管道 生物膜反应器 生物膜 曝气 高通量测序 微生物群落结构 raw water distribution pipeline biofilm annular reactors (BAR) biofilm aeration high-throughput pyrosequencing microbial community structure
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  • 1Lehtola M J, Miettinen I T, Keiniinen M M. Microbiolo- gy, chemistry and biofilm development in a pilot drinking water distribution system with copper and plastic pipes [J]. Water Res,2004,38(17):3769 -3779.
  • 2Bachmann R T, Edyvean R G J. Biofouling: an historic and contemporary review of its causes, consequences and control in drinking water distribution systems [ J ]. Bio- films ,2005,2 (3) : 197 - 227.
  • 3白晓慧,周斌辉,朱斌,王海亮.上海市供水管网内壁生物膜的微生物特征分析[J].中国给水排水,2007,23(11):105-108. 被引量:5
  • 4Lee D G, Park S J, Kim S J. Influence of pipe materials and VBNC cells on culturable bacteria in a chlorinated drinking water model system [ J ]. J Microbiol Biotechn- o1,2007,17 (9) : 1558- 1562.
  • 5Feazel L M, Baumgartner L K, Peterson K L, et al. Op- portunistic pathogens enriched in showerhead biofilms [ J]. Proc Natl Acad Sci, 2009, 106 (38) : 16393 - 16398.
  • 6Ma J X, Wang Z, Yang Y, et al. Correlating microbial community structure and composition with aeration inten- sity in submerged membrane bioreactors by 454 high- throughput pyrosequencing [ J ]. Water Res, 2013,47 : 859 - 869.
  • 7张珍妮,吴晓芙,陈永华,石卉.DGGE技术在环境微生物多样性研究中的应用[J].生物技术通报,2009,25(12):48-52. 被引量:14
  • 8Ye L, Shao M F, Zhang T. Analysis of the bacterial com- munity in a laboratory-scale nitrification reactor and a wastewater treatment plant by 454-pyrosequencing [ J ]. Water Res ,2011,45 ( 15 ) :4390 - 4398.
  • 9Haas B J, Gevers D, Earl A M, et al. Chimeric 16S rRNA sequence formation and detection in Sanger and 454-pyrosequenced PCR amplicons [ J ]. Genome Res, 2011,21 (3) :494 -504.
  • 10Sun Y, Cai Y, Liu L, et al. ESPRIT: estimating species richness using large collections of 16S rRNA pyroseque-nces[ J ]. Nucleic Acids Res, 2009,37 (10) :76.

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