Enhanced anammox consortium activity for nitrogen removal: Impacts of static magnetic field

Journal of Biotechnology

Volumn 138, Issue 3-4, 2008, Pages 96-102

  Liu, Sitong ^a   Yang, Fenglin ^a   Meng, Fangang ^a,b   Chen, Huihui ^a   Gong, Zheng ^a  

^a MOE   (China)

^b TECHNISCHE UNIVERSITÄT BERLIN   (Germany)

Author keywords

Anaerobic ammonium oxidizing activity; Anammox; Magnetic field; Microbiological composition; Nitrogen removal rate; Planctomycetales

Indexed keywords

AMMONIUM COMPOUNDS; CHEMICAL OXYGEN DEMAND; MAGNETIC FIELD MEASUREMENT; MAGNETIC FIELDS; MAGNETIC MATERIALS; MAGNETISM; NITROGEN; WASTEWATER; WASTEWATER TREATMENT;

ANAEROBIC AMMONIUM OXIDATIONS; ANAEROBIC AMMONIUM OXIDIZING ACTIVITY; ANAMMOX; ANAMMOX REACTORS; BACTERIAL DIVERSITIES; BATCH TESTS; CULTIVATION TIMES; EFFECT OF MAGNETIC FIELDS; MAGNETIC SYSTEMS; MICROBIOLOGICAL COMPOSITION; MICROBIOLOGICAL COMPOSITIONS; OXIDIZING ACTIVITIES; PLANCTOMYCETALES; START-UP; STATIC MAGNETIC FIELDS;

NITROGEN REMOVAL;

AMMONIA; NITROGEN;

AMMONIUM OXIDATION; ANAEROBIC METABOLISM; ARTICLE; BACTERIAL STRAIN; CONTROLLED STUDY; FED BATCH REACTOR; MAGNETIC FIELD; MICROBIAL COMMUNITY; NONHUMAN; NUCLEOTIDE SEQUENCE; OXIDATION KINETICS; PLANCTOMYCETALES; PRIORITY JOURNAL; WASTE COMPONENT REMOVAL;

AMMONIA; ANAEROBIOSIS; BACTERIA; BIOREACTORS; MAGNETICS; NITROGEN; OXIDATION-REDUCTION; POLYMERASE CHAIN REACTION; RNA, RIBOSOMAL, 16S; TIME FACTORS;

BACTERIA (MICROORGANISMS); PLANCTOMYCETALES;

EID: 55249086698     PISSN: 01681656     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jbiotec.2008.08.002     Document Type: Article

References (33)

1. Abma W., Schultz C.E., Mulder J.W., and van Loosdewcht M.C.M. The advance of anammox. Water 21 (2007) 36-37
2. Altschul S.F., Gish W., Miller W., Myers E., and Lipman D.J. Basic local alignment search tool. J. Mol. Biol. 215 (1990) 403-410
3. APHA. Standard Methods for the Examination of Water and Wastewater (1995), American Public Health Association, Baltimore, MD
4. Campos J.L., Mosquera-Collal A., Sānchez M., Méndez R., and Lema J.M. Nitrification in saline wastewater with high ammonia concentration in an activated sludge unit. Water Res. 36 10 (2002) 2555-2560
5. Chamchoi N., and Nitisoravut S. Anammox enrichment from different conventional sludges. Chemosphere 66 11 (2007) 2225-2232
6. Dapena-Mora A., Campos J.L., Mosquera-Corral A., Jetten M.S.M., and Méndez R. Stability of the ANAMMOX process in a gas-lift reactor and a SBR. J. Biotechnol. 110 2 (2004) 159-170
7. Egli K., Langer C., Ciegrist H.R., Zehnder A.J.B., Wagner M., and van de Meer J.R. Community analysis of ammonia and nitrite oxidizers during start-up of nitritation reactors. Appl. Environ. Microbiol. 69 6 (2003) 3213-3222
8. Furukawa K., Rouse J.D., Yoshida N., and Hatanaka H. Mass cultivation of anaerobic ammonium-oxidizing sludge using a novel nonwoven biomass carrier. J. Chem. Eng. Jpn. 36 (2003) 1163-1169
9. Gao M., Yang M., Li H., Yang Q., and Zhang Y. Comparison between a submerged membrane bioreactor and a conventional activated sludge system on treating ammonia-bearing inorganic wastewater. J. Biotechnol. 108 3 (2004) 265-269
10. Jetten M.S.M., Wagner M., Fuerst J., van Loosdrecht M., Kuenen G., and Strous M. Microbiology and application of the anaerobic ammonium oxidation (anammox) process. Environ. Biotechnol. 12 (2001) 283-288
11. Jin, R.C., Zheng, P., Hu, A.H., Mahmood, Q., Hu, B.L., Jilani, G., 2007. Performance comparison of two anammox reactors: SBR and UBF. Chem. Eng. J. doi:10.1016/j.cej.2007.06.038.
12. Jung J., and Sofer S. Enhancement of phenol biodegradation by south magnetic field exposure. J. Chem. Technol. Biotechnol. 70 (1997) 299-303
13. Khin T., and Annachhatre A.P. Novel microbial nitrogen removal processes. Biotechnol. Adv. 22 7 (2004) 519-532
14. Kieling D.D., Reginatto V., Schmidell W., Travers D., Menes R.J., and Soares H.M. Sludge wash-out as strategy for anammox process start-up. Process Biochem. 42 12 (2007) 1579-1585
15. Lakay F.M., Botha A., and Prior B.A. Comparative analysis of environmental DNA extraction and purification methods from different humic acid-rich soils. J. Appl. Microbiol. 102 1 (2007) 265-273
16. Liu S., Gong Z., Yang F., Zhang H., Shi L., and Furukawa K. Combined process of urea nitrogen removal in anaerobic anammox co-culture reactor. Bioresour. Technol. 99 6 (2008) 1722-1728
17. Moore R.L. Biological effects of magnetic field: studies with microorganisms. Can. J. Microbiol. 25 10 (1979) 1145-1151
18. Raja Rao T.B.M.L., Sonolikar R.L., and Pentu Saheb S. Influence of magnetic field on the performance of bubble columns and airlift bioreactor with submersed microorganisms. Chem. Eng. Sci. 52 21-22 (1997) 4155-4160
19. Rincón B., Raposo F., Borja R., Gonzalez J.M., Portillo M.C., and Saiz-Jimenez C. Performance and microbial communities of a continuous stirred tank anaerobic reactor treating two-phases olive mill solid wastes at low organic loading rates. J. Biotechnol. 121 4 (2006) 534-543
20. Sliekers A.O., Third K.A., Abma W., Kuenen J.G., and Jetten M.S.M. CANON and Anammox in a gas-lift reactor. FEMS Microbiol. Lett. 218 2 (2003) 339-344
21. Strous M., Fuerst J.A., Kramer E.H., 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 6743 (1999) 446-449
22. Strous M., Heijnen J.J., Kuenen J.G., and Jetten M.S.M. The sequencing batch reactor as a powerful tool for the study of slowly growing anaerobic ammonium-oxidizing microorganisms. Appl. Microbiol. Biotechnol. 50 5 (1998) 589-596
23. Strous M., van Gerven E., Zheng P., Kuenen J.G., and Jetten M.S.M. Ammonium removal from concentrated waste streams with the anaerobic ammonium oxidation (anammox) process in different reactor configurations. Water Res. 31 8 (1997) 1955-1962
24. Third K.A., Paxman J., Schmid M., Strous M., Jetten M.S.M., and Cord-Ruwisch R. Enrichment of anammox from activated sludge and its application in the CANON process. FEMS Microbiol. Ecol. 49 2 (2005) 236-244
25. Tomska A., and Rajczyk M.J. The effect of magnetic field on wastewater treatment with activated sludge method. Environ. Prot. Eng. 30 4 (2004) 156-160
26. Tsushima I., Kindaichi T., and Okabe S. Quantification of anaerobic ammonium-oxidizing bacteria in enrichment cultures by real-time PCR. Water Res. 41 4 (2007) 785-794
27. van de Graaf A.A., de Bruijn P., Robertson L.A., Jetten M.S.M., and Kuenen J.G. Autotrophic growth of anaerobic ammonium-oxidizing microorganisms in a fluidized bed reactor. Appl. Environ. Microbiol. 142 8 (1996) 2187-2196
28. van Loosdrecht M., Jetten, and Abma W. Improving the sustainability of ammonium removal. Water 21 (2001) 50-52
29. Wang J., and Kang J. The characteristics of anaerobic ammonium oxidation (ANAMMOX) by granular sludge from an EGSB reactor. Process Biochem. 40 5 (2005) 1973-1978
30. Yang S., Tay J.H., and Liu Y. A novel granular sludge sequencing batch reactor for removal of organic and nitrogen from wastewater. J. Biotechnol. 106 1 (2003) 77-86
31. Yavus H., and Celebi S.S. Effects of magnetic field on activity of activated sludge in wastewater treatment. Enzyme Microb. Technol. 26 1 (2000) 22-27
32. Yavus H., and Celebi S.S. A typical application of magnetic field in wastewater treatment with fluidized bed biofilm reactor. Chem. Eng. Commun. 190 (2003) 599-609
33. Zhang S., Zheng P., and Hua Y. Anammox transited from denitrification in upflow biofilm reactor. J. Environ. Sci. 16 6 (2004) 1041-1045