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Environmental Technology Volume 11, 1990 - Issue 7
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Original Articles

Glucose induced break down of enhanced biological phosphate removal

J.S. Cech Institute of Landscape Ecology, Division of Hydrobiology, Czechoslovak Academy of Science, Na sadkach 7, Ceske Budejovice, 370 05, Czechoslovakia
&
P. Hartman Institute of Landscape Ecology, Division of Hydrobiology, Czechoslovak Academy of Science, Na sadkach 7, Ceske Budejovice, 370 05, Czechoslovakia
Pages 651-656 | Received 18 Oct 1989, Accepted 07 Feb 1990, Published online: 17 Dec 2008

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Xiao-Di Hao, Qi-Lin Wang, Jing-Yi Zhu & MarkC. M. Van Loosdrecht. (2010) Microbiological Endogenous Processes in Biological Wastewater Treatment Systems. Critical Reviews in Environmental Science and Technology 40:3, pages 239-265.
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Ebru Dulekgurgen, Koray Yesiladali, Süleyman Ovez, Candan Tamerler, Nazik Artan & Derin Orhon. (2003) Conventional Morphological and Functional Evaluation of the Microbial Populations in a Sequencing Batch Reactor Performing EBPR. Journal of Environmental Science and Health, Part A 38:8, pages 1499-1515.
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Beril S. Akin & Aysenur Ugurlu. (2001) ENHANCED PHOSPHORUS REMOVAL BY GLUCOSE FED SEQUENCING BATCH REACTOR. Journal of Environmental Science and Health, Part A 36:9, pages 1757-1766.
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Articles from other publishers (65)

Agustina Ziliani, Patricia Bovio-Winkler, Angela Cabezas, Claudia Etchebehere, Hector A. Garcia, Carlos M. López-Vázquez, Damir Brdjanovic, Mark C.M. van Loosdrecht & Francisco J. Rubio-Rincón. (2023) Putative metabolism of Ca. Accumulibacter via the utilization of glucose. Water Research 229, pages 119446.
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Fatima Akram, Amna Aqeel, Zeeshan Ahmed, Javeria Zafar & Ikram ul Haq. 2022. Microbial Consortium and Biotransformation for Pollution Decontamination. Microbial Consortium and Biotransformation for Pollution Decontamination 151 179 .
A. G. Dorofeev, Yu. A. Nikolaev, A. V. Mardanov & N. V. Pimenov. (2019) Cyclic Metabolism as a Mode of Microbial Existence. Microbiology 88:4, pages 402-415.
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Minh Nguyen Quang, Tim Rogers, Jan Hofman & Ana B. Lanham. (2019) New framework for automated article selection applied to a literature review of Enhanced Biological Phosphorus Removal. PLOS ONE 14:5, pages e0216126.
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Ningqing Lv, Tongtong Li, Hui Liu, Yuanyuan Xie, Beidou Xi, Jinsheng Wang, Lei Wang & Ying Zhang. (2018) The removal of phosphate in rural domestic wastewater with a SBBR by micro-bubble technology. IOP Conference Series: Materials Science and Engineering 397, pages 012093.
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Hüseyin Yazıcı & Mehmet Kılıç. (2016) Effect of the Concentration Balance in Feeding Solutions on EBPR Performance of a Sequencing Batch Reactor Fed with Sodium Acetate or Glucose. Water, Air, & Soil Pollution 227:10.
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Jonathan W. C. Wong, Mayur B. Kurade & Kuan Yeow Show. 2016. Green Technologies for Sustainable Water Management. Green Technologies for Sustainable Water Management 375 418 .
Abdul M. Maszenan, Robert J. Seviour & Bharat K.C. Patel. 2015. Bergey's Manual of Systematics of Archaea and Bacteria. Bergey's Manual of Systematics of Archaea and Bacteria 1 7 .
Philippe Normand & David R. Benson. 2015. Bergey's Manual of Systematics of Archaea and Bacteria. Bergey's Manual of Systematics of Archaea and Bacteria 1 3 .
Masaru K. Nobu, Hideyuki Tamaki, Kengo Kubota & Wen-Tso Liu. (2014) Metagenomic characterization of ‘ C andidatus  Defluviicoccus tetraformis strain TFO71’, a tetrad-forming organism, predominant in an anaerobic-aerobic membrane bioreactor with deteriorated biological phosphorus removal . Environmental Microbiology 16:9, pages 2739-2751.
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M.F.R. Zuthi, W.S. Guo, H.H. Ngo, L.D. Nghiem & F.I. Hai. (2013) Enhanced biological phosphorus removal and its modeling for the activated sludge and membrane bioreactor processes. Bioresource Technology 139, pages 363-374.
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Yunjie Tu & Andrew J. Schuler. (2013) Low Acetate Concentrations Favor Polyphosphate-Accumulating Organisms over Glycogen-Accumulating Organisms in Enhanced Biological Phosphorus Removal from Wastewater. Environmental Science & Technology 47:8, pages 3816-3824.
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Adam Muszyński, Maria Łebkowska, Agnieszka Tabernacka & Aleksandra Miłobędzka. (2013) From macro to lab-scale: Changes in bacterial community led to deterioration of EBPR in lab reactor. Open Life Sciences 8:2, pages 130-142.
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M.F.R. Zuthi, H.H. Ngo, W.S. Guo, L. Nghiem & F.I. Hai. (2012) WITHDRAWN: A Mini Review of Biological Phosphorus Removal and its Mathematical Modelling for Activated Sludge and Membrane Bioreactor Processes in Wastewater Treatment. Water Research.
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Seyoum Yami Gebremariam, Marc W. Beutel, David Christian & Thomas F. Hess. (2012) Effects of glucose on the performance of enhanced biological phosphorus removal activated sludge enriched with acetate. Bioresource Technology 121, pages 19-24.
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Etienne Paul, Elisabeth Neuhauser & Yu Liu. 2012. Biological Sludge Minimization and Biomaterials/Bioenergy Recovery Technologies. Biological Sludge Minimization and Biomaterials/Bioenergy Recovery Technologies 465 498 .
Ying Hui Ong, Adeline Seak May Chua, Boon Pin Lee, Gek Cheng Ngoh & Mohd Ali Hashim. (2012) An Observation on Sludge Granulation in an Enhanced Biological Phosphorus Removal Process. Water Environment Research 84:1, pages 3-8.
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Michael Goodfellow. 2012. Bergey’s Manual® of Systematic Bacteriology. Bergey’s Manual® of Systematic Bacteriology 33 2028 .
Sheng-Jie You, Yung-Pin Tsai, Bo-Chuan Cho & Yi-Hsiu Chou. (2011) Metabolic influence of lead on polyhydroxyalkanoates (PHA) production and phosphate uptake in activated sludge fed with glucose or acetic acid as carbon source. Bioresource Technology 102:17, pages 8165-8170.
Crossref
Seyoum Yami Gebremariam, Marc W. Beutel, David Christian & Thomas F. Hess. (2011) Research Advances and Challenges in the Microbiology of Enhanced Biological Phosphorus Removal-A Critical Review. Water Environment Research 83:3, pages 195-219.
Crossref
Yong-Qiang Liu, Yu Liu, Joo-Hwa Tay & Yung-Tse Hung. 2010. Environmental Bioengineering. Environmental Bioengineering 497 521 .
Christina M. Forbes, Niall D. O'Leary, Alan D. Dobson & Julian R. Marchesi. (2009) The contribution of âomicâ-based approaches to the study of enhanced biological phosphorus removal microbiology. FEMS Microbiology Ecology 69:1, pages 1-15.
Crossref
Youwei CUI, Shuying WANG & Jing LI. (2009) On-line Monitoring for Phosphorus Removal Process and Bacterial Community in Sequencing Batch Reactor. Chinese Journal of Chemical Engineering 17:3, pages 484-492.
Crossref
April Z. Gu, A. Saunders, J. B. Neethling, H. D. Stensel & L. L. Blackall. (2008) Functionally Relevant Microorganisms to Enhanced Biological Phosphorus Removal Performance at Full-Scale Wastewater Treatment Plants in the United States. Water Environment Research 80:8, pages 688-698.
Crossref
Paulo C. Lemos, Yu Dai, Zhiguo Yuan, Jurg Keller, Helena Santos & Maria A. M. Reis. (2007) Elucidation of metabolic pathways in glycogen-accumulating organisms with in vivo 13 C nuclear magnetic resonance . Environmental Microbiology 9:11, pages 2694-2706.
Crossref
Sebastià Puig, Marta Coma, Mark CM van Loosdrecht, Jesús Colprim & Maria D Balaguer. (2007) Biological nutrient removal in a sequencing batch reactor using ethanol as carbon source. Journal of Chemical Technology & Biotechnology 82:10, pages 898-904.
Crossref
Yu Dai, Zhiguo Yuan, Xiaolian Wang, Adrian Oehmen & Jurg Keller. (2007) Anaerobic metabolism of Defluviicoccus vanus related glycogen accumulating organisms (GAOs) with acetate and propionate as carbon sources. Water Research 41:9, pages 1885-1896.
Crossref
L.M. Whang, C.D.M. Filipe & J.K. Park. (2007) Model-based evaluation of competition between polyphosphate- and glycogen-accumulating organisms. Water Research 41:6, pages 1312-1324.
Crossref
Yaoping Lü. (2007) Advance on the production of polyhydroxyalkanoates by mixed cultures. Frontiers of Biology in China 2:1, pages 21-25.
Crossref
Huabing Lu, Adrian Oehmen, Bernardino Virdis, Jürg Keller & Zhiguo Yuan. (2006) Obtaining highly enriched cultures of Candidatus Accumulibacter phosphates through alternating carbon sources. Water Research 40:20, pages 3838-3848.
Crossref
S.R. Chae, S.T. Kang, Y. Watanabe & H.S. Shin. (2006) Development of an innovative vertical submerged membrane bioreactor (VSMBR) for simultaneous removal of organic matter and nutrients. Water Research 40:11, pages 2161-2167.
Crossref
Abdul Majid Maszenan, Joo-Hwa Tay, Peter Schumann, He-Long Jiang & Stephen Tiong-Lee Tay. (2005) Quadrisphaera granulorum gen. nov., sp. nov., a Gram-positive polyphosphate-accumulating coccus in tetrads or aggregates isolated from aerobic granules. International Journal of Systematic and Evolutionary Microbiology 55:5, pages 1771-1777.
Crossref
Venkatram Mahendraker, Donald S. Mavinic, Barry Rabinowitz & Kenneth J. Hall. (2005) The impact of influent nutrient ratios and biochemical reactions on oxygen transfer in an EBPR process—A theoretical explanation. Biotechnology and Bioengineering 91:1, pages 22-42.
Crossref
W. F. HarperJrJr & D. Jenkins. (2005) Application of Anaerobic and Aerobic Activated Sludge to Phosphorus-Deficient Wastewater Treatment. Water Environment Research 77:3, pages 234-245.
Crossref
Patrick Dabert, Jean-Philippe Delgen�s & Jean-Jacques Godon. (2004) Monitoring the impact of bioaugmentation on the start up of biological phosphorus removal in a laboratory scale activated sludge ecosystem. Applied Microbiology and Biotechnology 66:5, pages 575-588.
Crossref
Glen Daigger. 2004. Advances in Water and Wastewater Treatment. Advances in Water and Wastewater Treatment 101 116 .
H. Salehizadeh & M.C.M. Van Loosdrecht. (2004) Production of polyhydroxyalkanoates by mixed culture: recent trends and biotechnological importance. Biotechnology Advances 22:3, pages 261-279.
Crossref
Nevin Yagci, Nazik Artan, Emine Ubay Çokgör, Clifford W. Randall & Derin Orhon. (2003) Metabolic model for acetate uptake by a mixed culture of phosphate‐ and glycogen‐accumulating organisms under anaerobic conditions. Biotechnology and Bioengineering 84:3, pages 359-373.
Crossref
. (2003) Effect of Media Packing Ratio on the Sequencing Batch Biofilm Reator. Journal of the Environmental Sciences 12:7, pages 791-799.
Crossref
Robert J. Seviour, Takashi Mino & Motoharu Onuki. (2003) The microbiology of biological phosphorus removal in activated sludge systems. FEMS Microbiology Reviews 27:1, pages 99-127.
Crossref
Raymond J. Zeng, Zhiguo Yuan & Jürg Keller. (2002) Enrichment of denitrifying glycogen‐accumulating organisms in anaerobic/anoxic activated sludge system. Biotechnology and Bioengineering 81:4, pages 397-404.
Crossref
Raymond J. Zeng, Mark C. M. van Loosdrecht, Zhiguo Yuan & Jürg Keller. (2002) Metabolic model for glycogen‐accumulating organisms in anaerobic/aerobic activated sludge systems. Biotechnology and Bioengineering 81:1, pages 92-105.
Crossref
Hiroyasu Satoh & Takashi Mino. 2005. Biopolymers Online. Biopolymers Online.
Johwan Ahn, Tomotaka Daidou, Satoshi Tsuneda & Akira Hirata. (2002) Transformation of phosphorus and relevant intracellular compounds by a phosphorus‐accumulating enrichment culture in the presence of both the electron acceptor and electron donor. Biotechnology and Bioengineering 79:1, pages 83-93.
Crossref
Michael Wagner & Alexander Loy. (2002) Bacterial community composition and function in sewage treatment systems. Current Opinion in Biotechnology 13:3, pages 218-227.
Crossref
A. Falvo, C. Levantesi, S. Rossetti, R.J. Seviour & V. Tandoi. (2001) Synthesis of intracellular storage polymers by Amaricoccus kaplicensis, a tetrad forming bacterium present in activated sludge. Journal of Applied Microbiology 91:2, pages 299-305.
Crossref
Niandong Wang, Gordon Hill & Jian Peng. (2014) Mathematical model for the microbial metabolism of glucose induced enhanced biological phosphorus removal in an anaerobic/aerobic sequential batch reactor. Environmental Engineering and Policy 3:1, pages 87-99.
Crossref
Niandong Wang, Gordon Hill & Jian Peng. (2001) The role of glucose in developing enhanced biological phosphorus removal. Environmental Engineering and Policy 3:1, pages 45-54.
Crossref
Yun H. Kong, Michael Beer, Robert J. Seviour, Kenneth C. Lindrea & Gavin N. Rees. (2001) Structure and Functional Analysis of the Microbial Community in an Aerobic: Anaerobic Sequencing Batch Reactor (SBR) with no Phosphorus Removal. Systematic and Applied Microbiology 24:4, pages 597-609.
Crossref
Thongchai Panswad, Komol Iamsamer & Jin Anotai. (2001) Decolorization of azo-reactive dye by polyphosphate- and glycogen-accumulating organisms in an anaerobic–aerobic sequencing batch reactor. Bioresource Technology 76:2, pages 151-159.
Crossref
S.J. You, W.T. Liu, M. Onuki, T. Mino, H. Satoh, T. Matsuo & C.F. Ouyang. 2001. Advances in Water and Wastewater Treatment Technology. Advances in Water and Wastewater Treatment Technology 207 215 .
Carlos D. M. Filipe, Glen T. Daigger & C. P. Leslie GradyJr.Jr.. (2001) Stoichiometry and kinetics of acetate uptake under anaerobic conditions by an enriched culture of phosphorus‐accumulating organisms at different pHs. Biotechnology and Bioengineering 76:1, pages 32-43.
Crossref
Carlos D. M. Filipe, Glen T. Daigger & C. P. Leslie GradyJr.Jr.. (2001) A metabolic model for acetate uptake under anaerobic conditions by glycogen accumulating organisms: Stoichiometry, kinetics, and the effect of pH. Biotechnology and Bioengineering 76:1, pages 17-31.
Crossref
Robert J. Seviour, Abdul M. Maszenan, Jacques A. Soddell, Valter Tandoi, Bharat K. C. Patel, Yunhong Kong & Peter Schumann. (2008) Microbiology of the ‘G‐bacteria’ in activated sludge. Environmental Microbiology 2:6, pages 581-593.
Crossref
C. P. L. GradyJr.Jr. & C. D. M. Filipe. 2000. Environmental Challenges. Environmental Challenges 117 132 .
Philip L. Bond, Robert Erhart, Michael Wagner, Jürg Keller & Linda L. Blackall. (1999) Identification of Some of the Major Groups of Bacteria in Efficient and Nonefficient Biological Phosphorus Removal Activated Sludge Systems. Applied and Environmental Microbiology 65:9, pages 4077-4084.
Crossref
Hiroyasu Satoh, Takashi Mino & Tomonori Matsuo. (1999) PHA production by activated sludge. International Journal of Biological Macromolecules 25:1-3, pages 105-109.
Crossref
Sang Yup Lee & Jong-il Choi. (1999) Production and degradation of polyhydroxyalkanoates in waste environment. Waste Management 19:2, pages 133-139.
Crossref
Thongchai Panswad & Chadarut Anan. (1999) Impact of high chloride wastewater on an anaerobic/anoxic/aerobic process with and without inoculation of chloride acclimated seeds. Water Research 33:5, pages 1165-1172.
Crossref
T. Mino, M.C.M. van Loosdrecht & J.J. Heijnen. (1998) Microbiology and biochemistry of the enhanced biological phosphate removal process. Water Research 32:11, pages 3193-3207.
Crossref
Andrew Amis Randall, Larry D. Benefield & William E. Hill. (1997) Induction of phosphorus removal in an enhanced biological phosphorus removal bacterial population. Water Research 31:11, pages 2869-2877.
Crossref
G.C. Knight, E.M. Seviour, R.J. Seviour, J.A. Soddell, K.C. Lindrea, W. Strachan, B. De Grey & R.C. Bayly. (1995) Development of the microbial community of a full scale biological nutrient removal activated sludge plant during start-up. Water Research 29:9, pages 2085-2093.
Crossref
Wen-Tso Liu, Takashi Mino, Kazunori Nakamura & Tomonori Matsuo. (1994) Role of glycogen in acetate uptake and polyhydroxyalkanoate synthesis in anaerobic-aerobic activated sludge with a minimized polyphosphate content. Journal of Fermentation and Bioengineering 77:5, pages 535-540.
Crossref
Jakub S. Cech & Petr Hartman. (1993) Competition between polyphosphate and polysaccharide accumulating bacteria in enhanced biological phosphate removal systems. Water Research 27:7, pages 1219-1225.
Crossref
Jiři Wanner & Libor Novák. (1991) Authors' reply. Water Research 25:9, pages 1163-1164.
Crossref

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