1 |
Dionisi HM, Layton AC, Harms G, Gregory IR, Robinson KG, Sayler GS. Quantification of Nitrosomonas oligotropha-like ammonia- oxidizing bacteria and Nitrospira spp. from full-scale wastewater treatment plants by competitive PCR. Appl. Environ. Microbiol. 2002;68:245-253.
DOI
|
2 |
Harms G, Layton AC, Dionisi HM, et al. Real-time PCR quantification of nitrifying bacteria in a municipal wastewater treatment plant. Environ. Sci. Technol. 2003;37:343-351.
DOI
|
3 |
Limpiyakorn T, Shinihara Y, Kurisu F, Yagi O. Communities of ammonia-oxidizing bacteria in activated sludge of various sewage treatment plants in Tokyo. FEMS Microbiol. Ecol. 2005;54:205-117.
DOI
|
4 |
Bai Y, Sun Q, Wen D, Tang X. Abundance of ammonia-oxidizing bacteria and archaea in industrial and domestic wastewater treatment systems. FEMS Microbiol. Ecol. 2012;80:323-330.
DOI
|
5 |
Limpiyakorn T, Furhacker M, Haberl R, Chodanon T, Srithep P, Sonthiphand P. amoA-encoding archaea in wastewater treatment plants: A review. Appl. Microbiol. Biotechnol. 2013;97:1425-1439.
DOI
|
6 |
Widdel F, Bak F. The Prokaryotes. In: Ballows A, Truper HG, Dworkin M, Harder W, Schleifer K-H, eds. A Handbook on the Biology of Bacteria: Ecophysiology, Isolation, Identification, Application. 2nd ed. New York: Springer; 1992. p. 3352-3378.
|
7 |
Francis CA, Roberts KJ, Beman, JM, Santoro AE, Oakley, BB. Ubiquity and diversity of ammonia-oxidizing archaea in water columns and sediments of the ocean. Proc. Natl. Acad. Sci. U.S.A. 2005;102:14683-14688.
DOI
|
8 |
Rotthauwe JH, Witzel KP, Liesack W. The ammonia monooxygenase structural gene amoA as a functional marker: molecular fine-scale analysis of natural ammonia-oxidizing populations. Appl. Environ. Microbiol. 1997;63:4704-4712.
|
9 |
Norton JM, Alzerreca JJ, Suwa Y, Klotz MG. Diversity of ammonia monooxygenase operon in autotrophic ammonia oxidizing bacteria. Arch. Microbiol. 2002;177:139-149.
DOI
|
10 |
Lim J, Do H, Seung GS, Hwang S. Primer and probe sets for group-specific quantification of the genera Nitrosomonas and Nitrosospira using real-time PCR. Biotechnol. Bioeng. 2008;99: 1374-1383.
DOI
|
11 |
Aakra A, Utaker JB, Nes IF. RFLP of rRNA genes and sequencing of the 16S-23S rDNA intergenic spacer region of ammonia-oxidizing bacteria: a phylogenetic approach. Int. J. Syst Bacteriol. 1999;49:123-130.
DOI
|
12 |
Spanjers H, Vanrolleghem P. Respirometry as a tool for rapid characterization of wastewater and activated sludge. Water Sci. Technol. 1995;31:105-114.
|
13 |
Chandran K, Smets BF. Single-step nitrification models erroneously describe batch ammonia oxidation profiles when nitrite oxidation becomes rate limiting. Biotechnol. Bioeng. 2000;68:396-406.
DOI
|
14 |
You SJ, Hsu CL, Chuang SH, Ouyang CF. Nitrification efficiency and nitrifying bacteria abundance in combined AS-RBC and A2O systems. Water Res. 2003;37:2281-2290.
DOI
|
15 |
Vejmelkova D, Sorokin DY, Abbas B, et al. Analysis of ammonia-oxidizing bacteria dominating in lab-scale bioreactors with high ammonium bicarbonate loading. Appl. Microbiol. Biotechnol. 2011;93:401-410.
|
16 |
Matsumoto S, Terada A, Aoi Y, Tsuneda S, Alpkvist E, Picioreanu C, Loosdrecht, MCM. Experimental and simulation analysis of community structure of nitrifying bacteria in a membrane-aerated biofilm. Water Sci. Technol. 2007;55:283-290.
|