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生物除磷系统聚糖菌的代谢机理及菌群结构 被引量:18

Metabolic mechanism and microbial community of glucose accumulating organisms (GAOs) in enhanced biological phosphorus removal processes
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摘要 针对聚糖菌的富集引起强化生物除磷系统(EBPR)运行不稳定问题,开展聚糖菌代谢机理、微生物形态和菌群结构研究,以了解EBPR工艺的微生物原理.聚糖菌在厌氧环境中分解体内的糖原以获得能量来摄取外界环境中的短链脂肪酸,因而在厌氧反应阶段与聚磷菌形成对有机底物的竞争矛盾.尤其当聚糖菌在某些未明确因素下取得竞争优势后,系统中的聚磷菌将逐渐被淘汰替换或成为非优势菌种,从而导致EBPR除磷功能的完全丧失.研究表明,进水基质类型、进水P/C比、pH、温度以及亚硝酸盐等因素决定着聚糖菌和聚磷菌的竞争优势,并在特定阈值内引起EBPR系统聚糖菌的富集而使除磷功能丧失. The overgrowth of the glycogen accumulating organisms (GAOs) has become one of the main reasons causing the unsteady operation of enhanced phosphorus removal (EBPR) processes. Therefore, the metabolic mechanism of GAOs as well as their microbial morphology and community is introduced for better understanding the exact microbial community of EBPR. GAOs can use synthetic glycogen as the energy source to assimilate volatile fatty acids (VAFs) anaerobically, resulting in a competition with phosphorus accumulation organisms (PAOs) for VAFs. Also, they will become the dominate population under un - identified conditions by ontcompeting PAOs, ultimately leading to the failure of EBPR. The studies show that the influent organic composition, P/C, pH, temperature and nitrites are the key factors impacting the competition between PAOs and GAOs. Within the certain ranges of the above operational parameters, the accumulation of GAOs occurs and the PAOs activities will be completely inhibited.
出处 《哈尔滨工业大学学报》 EI CAS CSCD 北大核心 2008年第8期1319-1324,共6页 Journal of Harbin Institute of Technology
基金 国家自然科学基金资助项目(5060806450628808) 全国优秀博士学位论文作者专项基金资助项目(200756) 北京市教委科技创新平台项目(PXM2008-014204-050843)
关键词 强化生物除磷 聚糖菌 聚磷菌 糖原 代谢机理 enhanced biological phosphorus removal glycogen accumulating organisms (GAO) phosphorus accumulating organisms (PAOs) glycogen metabolic mechanism
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参考文献27

  • 1TAKII S. Bacterial characteristics of activated sludges treating carbohydrate wastes[J].Water Res, 1977, 11:85-89.
  • 2CECH J S, HARTMAN P. Glucose induced breakdown of enhanced biological phosphate removal [ J ]. Environ Technol, 1990, 11:651-656.
  • 3LIU W T, MINO T, NAKAMURA K, et al. Glycogen accumulating population and its anaerobic substrate uptake in anaerobic - aerobic activated sludge without biological phosphorus removal [ J]. Water Res, 1996, 1(30) : 75 -82.
  • 4LIU W T, NAKAMURA K, MATSUO T, et al. Internal energy-based competition between polyphosphate - accumulating bacteria and glycogen - accumulating bacteria in biological phosphorus removal reactors - Effect of P/C feeding ratio [ J]. Water Res, 1997, 6 (31) :1430 - 1438.
  • 5MINO T, LIU W T; KURISU F, et al. Modeling glycogen storage and denitrification capability of microorganisms in enhanced biological phosphate removal processes [J]. Water Sci Technol, 1995, 31(2) : 25 -34.
  • 6MATSUO Y. Effect of the anaerobic solids retention time on enhanced biological phosphorus removal [ J ]. Water Sci Technol, !994, 30 : 193 - 202.
  • 7SATOH H, MINO T, MATSUO T. Deterioration of enhanced biological phosphorus removal by the domination of microorganisms without polyphosphate accumulation [J]. Water Sci Technol, 19941 30:203 -211.
  • 8ZENG R J, LOOSDRECHT van M C M, YUAN Z G, et al. Metabolic model for glycogen -accumulating organisms in anaerobic/aerobic activated sludge systems [J]. Biotechnology Bioeng, 2003, 81 (1) : 92 - 105.
  • 9OEHMEN A, BEATRICE K L, ZENG R J, et al. Optimization of poly - β - hydroxyalkanoate analysis using gas chromatography for enhanced biological phosphorus removal systems [ J ]. Journal of Chromatography A, 2005, 1 -2(1070) : 131 -136.
  • 10SEVIOUR R J, MINO T, ONUKI M. The microbiology of biological phosphorus removal in activated sludge systems [ J ]. FEMS Microbiology Reviews, 2005,1 (27) : 99 - 127.

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