Unraveling the Source of Nitric Oxide Emission During Nitrification

Nitric oxide production was measured during nitrification in a laboratory‐scale bioreactor, operated at conditions relevant to municipal nitrifying wastewater treatment plants. This study aims to determine which type of microorganism and which metabolic pathway is responsible for nitric oxide emission during nitrification. Simulation studies were used to identify which pathway is the main source of nitric oxide emission, based on the following three hypothetical pathways for nitric oxide emission: (a) nitrification, (b) denitrification by ammonia‐oxidizing bacteria with ammonium as electron donor, and (c) heterotrophic denitrification. The results of the study suggest that, in a nitrifying reactor treating wastewater containing solely ammonium and nutrients, denitrification by ammonia‐oxidizing bacteria is the main nitric‐oxide‐producing pathway. During the experiments, 0.025% of the treated ammonium is emitted as nitric oxide, independent of the aeration rate imposed. Nitrite presence and oxygen limitation were found to increase the nitric oxide emission.

[1]  M. Könneke,et al.  Isolation of an autotrophic ammonia-oxidizing marine archaeon , 2005, Nature.

[2]  Rudolf Ahlswede,et al.  Identification for Sources , 2005, Electron. Notes Discret. Math..

[3]  R. V. van Spanning,et al.  Denitrification and ammonia oxidation by Nitrosomonas europaea wild-type, and NirK- and NorB-deficient mutants. , 2004, Microbiology.

[4]  J. Lamerdin,et al.  Complete Genome Sequence of the Ammonia-Oxidizing Bacterium and Obligate Chemolithoautotroph Nitrosomonas europaea , 2003, Journal of bacteriology.

[5]  E. Bock,et al.  Nitrification and denitrification as a source for NO and NO2 production in high-strength wastewater. , 2001, Water research.

[6]  T. Stephenson,et al.  Production of nitrogen oxide and dinitrogen oxide by autotrophic nitrifiers. , 2000, Biotechnology advances.

[7]  J. Hevel,et al.  Unraveling the biological significance of nitric oxide. , 1990, BioFactors.

[8]  T. Yoshinari Nitrite and nitrous oxide production by Methylosinus trichosporium. , 1985, Canadian journal of microbiology.

[9]  S. Wofsy,et al.  Production of NO and N2O by soil nitrifying bacteria , 1981, Nature.

[10]  M. Firestone,et al.  Nitric oxide as an intermediate in denitrification: evidence from nitrogen-13 isotope exchange. , 1979, Biochemical and biophysical research communications.

[11]  G. A. Ritchie,et al.  Identification of the sources of nitrous oxide produced by oxidative and reductive processes in Nitrosomonas europaea. , 1972, The Biochemical journal.

[12]  M. Aleem Oxidation of Inorganic Nitrogen Compounds , 1970 .

[13]  W. Zumft The biological role of nitric oxide in bacteria , 2004, Archives of Microbiology.

[14]  E. Bock,et al.  Nitrogen loss caused by denitrifying Nitrosomonas cells using ammonium or hydrogen as electron donors and nitrite as electron acceptor , 2004, Archives of Microbiology.

[15]  D. Kelly,et al.  The prokaryotes: an evolving electronic resource for the microbiological community - , 2002 .

[16]  Mogens Henze,et al.  Activated Sludge Model No.2d, ASM2D , 1999 .

[17]  U Wiesmann,et al.  Biological nitrogen removal from wastewater. , 1994, Advances in biochemical engineering/biotechnology.

[18]  K. Schleifer,et al.  Oxidation of inorganic nitrogen compounds as energy source. , 1992 .

[19]  A. Freitag,et al.  Energy conservation in Nitrobacter , 1990 .

[20]  Paul J. Crutzen,et al.  The Role of NO and NO2 in the Chemistry of the Troposphere and Stratosphere , 1979 .