Modelling the metabolic shift of polyphosphate-accumulating organisms

Water Research

Volumn 65, Issue , 2014, Pages 235-244

  Acevedo, B ^a   Borras L ^b   Oehmen, A ^c   Barat, R ^a  

^a UNIVERSITAT POLITÈCNICA DE VALÈNCIA   (Spain)

^b UNIVERSITY OF VALENCIA   (Spain)

^c UNIVERSIDADE NOVA DE LISBOA   (Portugal)

Author keywords

Enhanced biological phosphorus removal (EBPR); Glycogen accumulating metabolism (GAM); Metabolic models; Polyphosphate (poly P); Polyphosphate accumulating metabolism (PAM); Polyphosphate accumulating organism (PAO)

Indexed keywords

BACTERIA; CHEMICALS REMOVAL (WATER TREATMENT); METABOLISM; VOLATILE FATTY ACIDS; WASTEWATER TREATMENT;

ENHANCED BIOLOGICAL PHOSPHORUS REMOVAL; GLYCOGEN-ACCUMULATING METABOLISMS; METABOLIC MODELS; POLYPHOSPHATE-ACCUMULATING METABOLISMS; POLYPHOSPHATE-ACCUMULATING ORGANISMS; POLYPHOSPHATES;

BIOLOGICAL WATER TREATMENT;

GLYCOGEN; PHOSPHORUS; POLYHYDROXYALKANOIC ACID; POLYPHOSPHATE;

ANOXIC CONDITIONS; CONCENTRATION (COMPOSITION); ERROR ANALYSIS; FATTY ACID; NUMERICAL MODEL; PARAMETERIZATION; PHOSPHATE; PHOSPHORUS; POLLUTANT REMOVAL; WASTEWATER; WATER TREATMENT;

ANAEROBIC METABOLISM; ARTICLE; DEGRADATION; GLYCOGEN ACCUMULATING METABOLISM; GLYCOGEN METABOLISM; KINETICS; METABOLISM; NONHUMAN; ORGANISMS BY METABOLISM; POLYPHOSPHATE ACCUMULATING METABOLISM; POLYPHOSPHATE ACCUMULATING ORGANISM; PRIORITY JOURNAL; STOICHIOMETRY; WASTE COMPONENT REMOVAL; WASTE WATER MANAGEMENT; AEROBIC METABOLISM; ANAEROBIC GROWTH; BACTERIUM; BIOLOGICAL MODEL; BIOMASS; BIOREACTOR; MICROBIOLOGY;

AEROBIOSIS; ANAEROBIOSIS; BACTERIA; BIOMASS; BIOREACTORS; GLYCOGEN; METABOLIC NETWORKS AND PATHWAYS; MODELS, BIOLOGICAL; POLYPHOSPHATES;

EID: 84905814622     PISSN: 00431354     EISSN: 18792448     Source Type: Journal    
DOI: 10.1016/j.watres.2014.07.028     Document Type: Article

References (25)

1. Acevedo B., Oehmen A., Carvalho G., Seco A., Borrás L., Barat R. Metabolic shift of polyphosphate-accumulating organisms with different levels of polyphosphate storage. Water Res. 2012, 46(6):1889-1900.
2. Barat R., Montoya T., Borras L., Seco A., Ferrer J. Calcium effect on enhanced biological phosphorus removal. Water Sci. Technol. 2006, 53(12):29-37.
3. Barat R., Montoya T., Borras L., Ferrer J., Seco A. Interactions between calcium precipitation and the polyphosphate-accumulating bacteria metabolism. Water Res. 2008, 42(13):3415-3424.
4. Erdal U., Erdal Z., Daigger G., Randall C. Is it PAO-GAO competition or metabolic shift in EBPR system? Evidence from an experimental study. Water Sci. Technol. 2008, 58(6):1329-1334.
5. Filipe C.D.M., Daigger G., Grady C.P.L. A metabolic model for acetate uptake under anaerobic conditions by glycogen accumulating organisms: stoichiometry, kinetics, ant the effect of pH. Biotechnol. Bioeng. 2001, 76(1):17-31.
6. Henze M., Gujer W., Mino T., Matsuo T., Wentzel M.C.M., Marais G.v.R. Activated Sludge Model No. 2 1995, Scientific and Technical Report No. 3, IAWQ, London, UK.
7. Henze M., Gujer W., Mino T., Matsuo T., Wentzel M.C., Marais G.v.R., van Loosdrecht M.C.M. Activated sludge model No. 2D, ASM2D. Water Sci. Technol. 1999, 39(1):165-182.
8. Hu Z., Wentzel M.C., Ekama G.A. A general kinetic model for biological nutrient removal activated sludge systems: model development. Biotechnol. Bioeng. 2007, 98(6):1242-1258.
9. Lanham A., Oehmen A., Saunders A.M., Carvalho G., Nielsen P.H., Reis M. Metabolic versatility in full-scale wastewater treatment plants performing enhanced biological phosphorus removal. Water Res. 2013, 47(19):7032-7041.
10. Lopez-Vazquez C.M., Oehmen A., Hooijmans C.M., Brdjanovic D., Gijzen H.J., Yuan Z., van Loosdrecht M.C.M. Modeling the PAO-GAO competition: effects of carbon source, pH and temperature. Water Res. 2009, 43(2):450-462.
11. Martin H.G., Ivanova N., Kunin V., Warnecke F., Barry K., McHardy A.C., Yeates C., He S., Salamov A., Szeto E., Dalin E., Putnam N., Shapiro H.J., Pangilinan J.L., Rigoutsos I., Kyrpides N.C., Blackall L.L., McMahon K.D., Hugenholtz P. Metagenomic analysis of two enhanced biological phosphorus removal (EBPR) sludge communities. Nat. Biotechnol. 2006, 24(10):1263-1269.
12. Meijer S.C.F. Theoretical and Practical Aspects of Modeling Activated Sludge Processes 2004, PhD thesis, The Delft University of Technology, The Netherlands.
13. Mino T., Liu W.T., Kurisu F., Matsuo T. Modeling glycogen storage and denitrification capability of microorganisms in enhanced biological phosphate removal processes. Water Sci. Technol. 1995, 31(2):25-34.
14. Murnleitner E., Kuba T., van Loosdrecht M.C.M., Heijnen J.J. An integrated metabolic model for the aerobic and denitrifying biological phosphorus removal. Biotechnol. Bioeng. 1997, 54(5):434-450.
15. Oehmen A., Lemos P.C., Carvalho G., Yuan Z., Keller J., Blackall L.L., Reis M.A.M. Advances in enhanced biological phosphorus removal: from micro to macro scale (review). Water Res. 2007, 41(11):2271-2300.
16. Oehmen A., Lopez-Vazquez C.M., Carvalho G., Reis M.A.M., van Loosdrecht M.C.M. Modelling the population dynamics and metabolic diversity of organisms relevant in anaerobic/anoxic/aerobic enhanced biological phosphorus removal processes. Water Res. 2010, 44(15):4473-4486.
17. Pijuan M., Oehmen A., Baeza J.A., Casas C., Yuan Z. Characterizing the biochemical activity of full-scale enhanced biological phosphorus removal systems: a comparison with metabolic models. Biotechnol. Bioeng. 2008, 99(1):170-179.
18. Reichert P. AQUASIM - a tool for simulation and data analysis of aquatic systems. Water Sci. Technol. 1994, 30(2):21-30.
19. Rieger L., Koch G., Kuhni M., Gujer W., Siegrist H. The EAWAG Bio-P module for activated sludge model no. 3. Water Res. 2001, 35(16):3887-3903.
20. Smolders G., Vandermeij J., Van Loosdrecht M., Heijnen J. Model of the anaerobic metabolism of the biological phosphorus removal process stoichiometry and pH influence. Biotechnol. Bioeng. 1994, 43(6):461-470.
21. Smolders G.J.F., Van Loosdrecht M.C.M., Heijnen J.J. A metabolic model for the biological phosphorus removal process. Water Sci. Technol. 1995, 31(2):79-93.
22. van Veldhuizen H.M., van Loosdrecht M.C.M., Heijnen J.J. Modelling biological phosphorus and nitrogen removal in a full scale activated sludge process. Water Res. 1999, 33(16):3459-3468.
23. Zeng R.J., Yuan Z., Keller J. Model-based analysis of anaerobic acetate uptake by a mixed culture of polyphosphate-accumulating and glycogen-accumulating organisms. Biotechnol. Bioeng. 2003, 83(3):293-302.
24. Zhou Y., Pijuan M., Zeng R., Huabing L., Yuan Z. Could polyphosphate-accumulating organisms (PAOs) be glycogen accumulating organisms (GAOs)?. Water Res. 2008, 42(10-11):2361-2368.
25. Zuthi M.F.R., Guo W.S., Ngo H.H., Nghiem L.D., Hai F.I. Enhanced biological phosphorus removal and its modeling for the activated sludge and membrane bioreactor processes. Bioresour. Technol. 2013, 139:363-374.