The activity of nitrite oxidizing bacteria (NOB) during activated sludge wastewater treatment was investigated by monitoring nitrite oxidation, nitrate formation and carbon dioxide fixation. Nitrite oxidation, nitrate removal and carbon dioxide (CO2) fixation assays in batch experiments were performed using mixed liquor samples obtained from a complete-mix, bench-scale, activated sludge reactor. Nitrite oxidation resulted in a 1:1 ratio (nitrite removal to nitrate formation) with equal rates in the batch samples. This ratio suggests conversion of all consumed nitrite to nitrate based on the stoichiometry of the reaction of nitrite oxidation in which 1 mol of nitrite-N is converted to 1 mol of nitrate-N. The mean assimilated inorganic carbon was 20.3 µg/L and the mean carbon dioxide fixation rate was calculated as 4.06 µg/L-hr. The ratio of carbon incorporated to nitrogen oxidized was 1.42 x 10-3. Additionally, it was demonstrated that there was a connection between nitrite removal, nitrate formation and CO2 fixation. Also, it was shown that uptake of inorganic carbon can be exploited as a method by which to demonstrate the in-situ activity of nitrifying bacteria.
[1]
Thomas E. Schultz,et al.
Biological Wastewater Treatment
,
2019,
Practical Waste water Treatment.
[2]
H. Glover.
The relationship between inorganic nitrogen oxidation and organic carbon production in batch and chemostat cultures of marine nitrifying bacteria
,
1985,
Archives of Microbiology.
[3]
S. Okabe,et al.
In Situ Analysis of Nitrifying Biofilms as Determined by In Situ Hybridization and the Use of Microelectrodes
,
1999,
Applied and Environmental Microbiology.
[4]
L. Belser.
Bicarbonate Uptake by Nitrifiers: Effects of Growth Rate, pH, Substrate Concentration, and Metabolic Inhibitors
,
1984,
Applied and environmental microbiology.
[5]
M. Somville.
A method for the measurement of nitrification rates in water
,
1978
.
[6]
Thomas D. Brock,et al.
Biology of microorganisms
,
1970
.