REFERENCES
- Anderson , A. and Dawes , E. 1990 . Occurrence, Metabolism, Metabolic Role and Industrial Uses of Bacterial Polyhydroxyalkanoates . Microbiol. Rev. , 54 : 450 – 472 .
- Lee , S. Y. 1996 . Bacterial Polyhydroxyalkanoates . Biotech. and Bioeng. , 49 ( 1 ) : 1 – 14 .
- Satoh , H. , Mino , T. and Matsuo , T. 1992 . Uptake of Organic Substrates and Accumulation of Polyhydroxyalkanoates Linked With Glycolysis of Intracellular Carbohydrates Under Anaerobic Conditions in The Biological Excess Phosphate Removal Processes . Wat. Sci. Tech. , 26 ( 5–6 ) : 933 – 942 .
- Arun , V. , Mino , T. and Matsuo , T. 1988 . Biological Mechanism of Acetate Uptake Mediated By Carbohydrate Consumption in Excess Phosphorus Removal System . Wat. Res. , 22 ( 5 ) : 565 – 570 .
- Smolders , G. J.F. , van Loosdrecht , M. C.M. and Heijnen , J. J. 1994 . Stoichiometric Model of The Aerobic Metabolism of The Biological Phosphorus Removal Process . Biotech. and Bioeng. , 44 ( 7 ) : 837 – 848 .
- Kerrn-Jespersen , P. J. and Henze , M. 1993 . Biological Phosphorus Uptake Under Anoxic and Aerobic Condition . Wat. Res. , 27 ( 4 ) : 617 – 624 .
- Kuba , T. , van Loosdrecht , M. C.M. and Heijnen , J. J. 1997a . Biological Dephosphatation By Activated Sludge Under Denitrifying Conditions: pH Influence and Occurrence of Denitrifying Dephosphatation in A Full-Scale Waste Water Treatment Plant . Wat. Sci. Tech. , 36 ( 12 ) : 75 – 82 .
- Kuba , T. , van Loosdrecht , M. C.M. , Brandse , A. F. and Heijnen , J. J. 1997b . Occurrence of Denitrifying Phosphorus Removing Bacteria in Modified UCT-Type Wastewater Treatment Plants . Wat. Res. , 31 ( 4 ) : 777 – 786 .
- Meinhold , J. , Filipe , D. M.C. , Diagger , T. G. and Isaacs , S. 1999 . Characterization of The Denitrifying Fraction of Phosphate Accumulating Organisms in Biological Phosphate Removal . Wat. Sci. Tech. , 39 ( 1 ) : 31 – 42 .
- Chuang , S. H. , Ouyang , C. F. , Yuang , H. C. and You , S. J. 1998 . Phosphorus and Polyhydroxyalkanoates Variation in A Combined Process with Activated Sludge and Biofilm . Wat. Sci. Tech. , 37 ( 4–5 ) : 593 – 597 .
- Meinhold , J. , Pedersen , H. , Arnold , E. , Isaacs , S. and Henze , M. 1998 . Effect of Continuous Addition of An Organic Substrate to The Anoxic Phase on Biological Phosphorus Removal . Wat. Sci. Tech. , 38 ( 1 ) : 97 – 105 .
- Cech , S. J. and Hartman , P. 1993 . Competition Between Polyphosphate and Polysaccharide Accumulating Bacteria in Enhanced Biological Phosphate Removal System . Wat. Res. , 27 ( 7 ) : 1219 – 1225 .
- Liu , W. T. , Mino , T. , Nakamura , K. and Matsuo , T. 1996 . Glycogen Accumulating Population and Its Anaerobic Substrate Uptake in Anaerobic-Aerobic Activated Sludge Without Biological Phosphorus Removal . Wat. Res. , 30 ( 1 ) : 75 – 82 .
- Wentzel , M. C. , Ekama , G. A. , Loewenthal , R. E. , Dold , P. L. and Marais , G. V.R. 1989 . Enhanced Polyphosphate Organisms Cultures in Activated Sludge System—Part II: Experimental Behavior . Water SA. , 15 ( 2 ) : 71 – 88 .
- van Loosdrecht , M. C.M , Pot , M. A. and Heijnen , J. J. 1997 . Importance of Bacterial Storage Polymers in Bioprocesses . Wat. Sci. Tech. , 35 ( 1 ) : 41 – 47 .