Effect of potential electron acceptors on anoxic ammonia oxidation in the presence of organic carbon

Journal of Hazardous Materials

Volumn 172, Issue 1, 2009, Pages 280-288

  Sabumon, P C ^a  

^a VIT UNIVERSITY   (India)

Author keywords

Anoxic ammonia oxidation; Catalase enzyme; Denitrification; Nitrogen removal; Organic carbon; Wastewater

Indexed keywords

AMMONIA OXIDATION; AMMONIA REMOVAL; ANAMMOX; ANOXIC AMMONIA OXIDATION; ANOXIC CONDITIONS; CATALASE ENZYME; CONTAMINATED SEDIMENT; ELECTRON ACCEPTOR; ENDOGENOUS RESPIRATION; MIXED CULTURES; NOVEL ROUTE; OXIDATION-REDUCTION POTENTIALS; RESPIRATION ACTIVITY; SEQUENCING BATCH REACTORS; TOTAL NITROGEN REMOVAL;

AMMONIA; BATCH REACTORS; BIOMASS; CHEMICAL OXYGEN DEMAND; DENITRIFICATION; ELECTRONS; ENZYMES; NITROGEN; NITROGEN REMOVAL; OXIDATION; STOICHIOMETRY; WASTEWATER; WASTEWATER TREATMENT;

ORGANIC CARBON;

AMMONIA; INORGANIC COMPOUND; NITRATE; NITRITE; NITROGEN; ORGANIC CARBON; SULFATE;

AMMONIA; ANOXIC CONDITIONS; DENITRIFICATION; ENZYME; ORGANIC CARBON; OXIDATION; WASTEWATER;

ARTICLE; BIOMASS; CONTROLLED STUDY; ECOSYSTEM; ELECTRON TRANSPORT; NITRIFICATION; OXIDATION REDUCTION POTENTIAL; SEDIMENT; SEQUENCING BATCH REACTOR; STOICHIOMETRY; WASTE COMPONENT REMOVAL; WASTE WATER MANAGEMENT; WATER CONTAMINATION;

AMMONIA; BIOMASS; BIOREACTORS; CARBON; CATALASE; ELECTRONS; GEOLOGIC SEDIMENTS; KINETICS; NITRIC OXIDE; ORGANIC CHEMICALS; OXYGEN; SOIL POLLUTANTS; WASTE DISPOSAL, FLUID; WATER POLLUTANTS; WATER PURIFICATION;

EID: 70350538924     PISSN: 03043894     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jhazmat.2009.07.006     Document Type: Article

References (33)

1. Ahn Y.H. Sustainable nitrogen elimination biotechnologies: a review. Process Biochem. 41 (2006) 1709-1721
2. Schmidt I., Sliekers O., Schmid M., Bock E., Fuerst J., Kuenen J.G., Jetten M.S.M., and Strous M. New concepts of microbial treatment processes for the N removal in wastewater. FEMS Microbiol. Rev. 27 (2003) 481-492
3. Van de Graaf A.A., Mulder A., de Bruijin P., Jetten M.S.M., Robertson L.A., and Kuenen J.G. Anaerobic oxidation of ammonia is a biologically mediated process. Appl. Environ. Microbiol. 61 4 (1995) 1246-1251
4. Strous M., Fuerst J.A., Kramer E.H.M., Logemann S., Muyzer G., Van de Pas-Schoonen K.T., Webb R., Kuenen J.G., and Jetten M.S.M. Missing lithotroph identified as new planctomycete. Nature 400 (1999) 446-449
5. Wang J., and Kang J. The characteristics of anaerobic ammonia oxidation (anoxic ammonia oxidation) by granular sludge from an EGSB reactor. Process Biochem. 40 (2005) 1973-1978
6. Hulth S., Aller R.C., and Gilbert F. Coupled anoxic nitrification/manganese reduction in marine sediments. Geochim. Cosmochim. Acta 63 (1999) 49-66
7. Bodelier P.L.E., Libochant J.A., Blom C.W.P.M., and Laanbroek H.J. Dynamics of nitrification and denitrification in root-oxygenated sediments and adaptation of ammonia-oxidizing bacteria to low-oxygen or anoxic habitats. Appl. Environ. Microbiol. 62 11 (1996) 4100-4107
8. Jetten M.S.M., Strous M., van de Pas-Schoonen K.T., Schalk J., van Dongan U.G.J.M., van de Graff A.A., Logemann S.G., Muyzer M.C., van Loosdrecht M., and Kuenen J.G. The anaerobic oxidation of ammonium. FEMS Microbiol. Rev. 22 (1999) 421-437
9. Allgeier R.J., Peterson W.H., Juday C., and Birge E.A. The anaerobic fermentation of lake sediments. Int. Rev. Hydrobiol. 26 (1932) 444-461
10. 2 fluxes from freshwater sediments in the absence of oxidized nitrogen compounds. Water Res. 32 (1998) 407-409
11. Sabumon P.C. Anaerobic ammonia removal in presence of organic matter: a novel route. J. Hazard. Mater. 149 (2007) 49-59
12. P.C. Sabumon, Evidence of anoxic ammonia oxidation process in presence of organic carbon, in: Proceedings of India 2006-An International Perspective on Environmental and Water Resources, organized by EWRI of ASCE and IIT Kanpur at New Delhi, India, December 18-20, 2006, and published by IIT Kanpur.
13. AWWA, Standard Methods for Water and Wastewater Examination, 19th ed., APHA, AWWA, WPCF, Washington D.C., USA, 1998.
14. Dubey R.C., and Maheswari D.K. Practical Microbiology. 1st ed. (2002), S. Chand & Company Ltd., New Delhi, India
15. Beers Jr. R.F., and Sizer I.W. A spectrophotometric method for measuring the breakdown of hydrogen peroxide by catalase. J. Biol. Chem. 195 (1952) 133-140
16. Strous M., Van Gerven E., Ping Z., Kuenen J.G., and Jetten M.S.M. Ammonium removal from concentrated waste streams with the anaerobic ammonium oxidation (anoxic ammonia oxidation) process in different reactor configurations. Water Res. 31 (1997) 1955-1962
17. Mulder A., Van de Graaf A.A., Robertson L.A., and Kuenen J.G. Anaerobic ammonium oxidation discovered in a denitrifying fluidized bed reactor. FEMS Microbiol. Ecol. 16 (1995) 177-184
18. FDZ-Polanco F., FDZ-Polanco M., Fernandez N., Uruena M.A., Garcia P.A., and Villaverde S. New process for simultaneous removal of N and sulphur under anaerobic conditions. Water Res. 35 4 (2001) 1111-1114
19. Luther III G.W., Sundby B., Lewis B.L., Brendel P.J., and Silverberg N. Interactions of manganese with the nitrogen cycle: alternative pathways to dinitrogen. Geochim. Cosmochim. Acta 61 (1997) 4043-4052
20. Anschutz P., Sundby B., Lefrancois L., Luther G.W., and Mucci A. Interactions between metal oxides and species of nitrogen and iodine in bioturbated marine sediments. Geochim. Cosmochim. Acta 64 (2000) 2751-2763
21. Mortimer R.J.G., Krom M.D., Harris S.J., Hayes P.J., Davies I.M., Davison W., and Zhang H. Evidence for suboxic nitrification in recent marine sediments. Mar. Ecol. Prog. Ser. 236 (2002) 31-35
22. Blokhino O., Virolainen E., and Fagerstedt K.V. Antioxidants, oxidative damage and oxygen deprivation stress: a review. Ann. Bot. 91 (2003) 179-194
23. Davydova M.N., and Sabirova R.Z. Anti-oxidant defense of the cell Desulfovibrio desulfuricans B-1388. Physiol. Microbial. Chem. Anaerobe 9 (2003) 39-41
24. Santos W.G.D., Pacheco I., Liu M.Y., Teixeira M., Xavier A.V., and LeGall J. Purification and characterization of an iron superoxide dismutase and a catalase from the sulfate-reducing bacterium Desulfovibrio gigas. J. Bacteriol. 182 (2000) 796-804
25. Brioukhanov A., Netrusov A., Sordel M., Thauer R.K., and Shima S. Protection of Methanosarcina barkeri against oxidative stress: identification and characterization of an iron superoxide dismutase. Arch. Microbiol. 174 (2000) 213-216
26. Lombard M., Fontecave M., Touati D., and Niviere V. Reaction of the desulfoferrodoxin from Desulfoarculus baarsii with superoxide anion. Evidence for a superoxide reductase activity. J. Biol. Chem. 275 (2000) 115-121
27. Lumppio H.L., Shenvi N.V., Summers A.O., Voordouw G., and Kurttz Jr. D.M. Rubrerythrin and rubredoxin oxidereductase in Desulfovibrio vulgaris: a novel oxidative stress protection system. J. Bacteriol. 183 (2001) 101-108
28. Francois M.M.M., and Janet G.H. Principles and Application of Aquatic Chemistry. 1st ed. (1983), John Wiley and Sons INC., New York
29. Wang J., and Yu J. Kinetic analysis on formation of poly (3-hydroxybutyrate) from acetic acid by Ralstonia eutropha under chemically defined conditions. J. Ind. Microbiol. Biotechnol. 26 (2001) 121-126
30. Third K.A., Burnett N., and Cord-Ruwisch R. Simultaneous nitrification and denitrification using stored substrate (PHB) as the electron donor in an SBR. Biotechnol. Bioeng. 83 (2003) 706-720
31. Qin R., and Liu L. Aerobic granulation for organic carbon and nitrogen removal in alternating aerobic-anaerobic sequencing batch reactor. Chemosphere 63 (2006) 926-933
32. 2 forming NADH oxidases from Archaeglobus fulgidus. Eur. J. Biochem. 270 (2003) 2885-2894
33. Kamp A., Stief P., and Schulz-Vogt H.N. Anaerobic sulfide oxidation with nitrate by a freshwater Beggiatoa enrichment culture. Appl. Environ. Microbiol. 72 7 (2006) 4755-4760