References
- Lemos , P.C. , Viana , C. , Salgueiro , E.N. , Ramos , A.M. , Crespo , J.P.S.G. and Reis , M.A.M. 1998 . Effect of carbon source on the formation of polyhydroxyalkanoates (PHA) by a phosphate-accumulating mixed culture . Enzyme Microb. Tech. , 22 ( 8 ) : 662 – 671 .
- Randall , A.A. and Liu , Y.H. 2002 . Polyhydroxyalkanoates form potentially a key aspect of aerobic phosphorus uptake in enhanced biological phosphorus removal . Water Res. , 36 ( 14 ) : 3473 – 3478 . [PUBMED] [INFOTRIEVE] [CROSSREF]
- Baetens , D. , Vanrolleghem , P.A. , van Loosdrecht , M.C.M. and Hosten , L.H. 1999 . Temperature effects in bio-P removal . Water Sci. Technol. , 39 ( 1–2 ) : 215 – 225 . [CROSSREF]
- Erdal , U.E. , Erdal , Z.K. and Randall , C.W. 2002 . The Competition Between PAOs and GAOs in EBPR Systems at Different Temperature and the Effect on System Performance . Proceedings in 3rd World Water Congress . June 3–5 2002 , Sydney, Australia. on CD: e20420a
- Smolders , G.J. , Van Der Meij , J. , van Loosdrecht , M.C.M. and Heijnen , J.J. 1994 . Model of the anaerobic metabolism of the biological phosphorus removal process; stoichiometry and pH influence . Biotechnol. Bioeng. , 43 : 461 – 470 . [CSA]
- Liu , W.T. , Nakamura , K. , Matsuo , T. and Mino , T. 1997 . Internal energy-based competition between polyphosphate and glycogen-accumulating bacteria in biological phosphorus removal reactors—effect of P/C feeding ratio . Water Res. , 31 : 1430 – 1438 . [CROSSREF]
- Cech , J.S. and Hartman , P. 1993 . Competition between polyphosphate and polysaccharide accumulating bacteria in enhanced biological phosphate removal systems . Water Res. , 27 ( 7 ) : 1219 – 1225 . [CROSSREF]
- Mino , T. , van Loosdrecht , M.C.M. and Heijnen , J.J. 1998 . Microbiology and biochemistry of the enhanced biological phosphate removal process . Water Res. , 32 ( 11 ) : 3193 – 3207 . [CROSSREF]
- Filipe , C.D.M. , Daigger , G.T. and Grady , C.P.L. Jr. 2001 . pH as a key factor in the competition between glycogen accumulating and phosphorus accumulating organisms . Water Environ. Res. , 73 : 223 – 232 . [PUBMED] [INFOTRIEVE]
- Shuler , A.J. and Jenkins , D. 2002 . Effects of pH on enhanced biological phosphorus removal metabolism . Water Sci. Technol. , 46 ( 4–5 ) : 171 – 178 .
- Hesselmann , R.P.X. , von Rummell , R. , Resnick , S.M. , Hany , R. and Zehnder , A.J.B. 2000 . Anaerobic metabolism of bacteria performing enhanced biological phosphate removal . Water Res. , 34 ( 14 ) : 3487 – 3494 . [CROSSREF]
- Eaton , A.D. , Clesceri , L.S. and Greenberg , A.E. 1998 . Standard Methods for the Examination of Water and Wastewater, , 20th Ed. Washington DC, , USA : American Public Health Association, American Water Works Association, Water Environment Federation .
- Gerhardt , P. , Murray , R.G.E. , Costilow , R.N. , Nester , E.W. , Wood , W.A. , Krieg , N.R. and Philips , G.B. 1981 . Manual of Methods for General Bacteriology Washington, DC : American Society for Microbiology .
- Erdal , U.G. The Biochemistry of EBPR: Role of Glycogen in Biological Phosphorus Removal and the Impact of the Operating Conditions on the Involvement of Glycogen . Ph.D. dissertation . Blacksburg, VA : Virginia Tech .
- Yagci , N. , Artan , N. , Cokgor , E.U. , Randall , C.W. and Orhon , D. 2003 . A metabolic model for acetate uptake by a mixed culture of phosphate and glycogen accumulating organisms under anaerobic conditions . Biotechnol. Bioeng. , 84 ( 3 ) : 359 – 373 . [PUBMED] [INFOTRIEVE] [CSA] [CROSSREF]