Ammonium Removal and Potential Microbial Interactions under Oxygen-Limited Conditions

Some microorganisms with the nitrification function can carry out nitrogen conversion under oxygen-limited conditions. In this study, a continuous-flow biofilm reactor was operated to investigate the removal of ammonium nitrogen (NH4-N) under microaerobic or anoxic conditions. After more than 100 days of long-term operation, the NH4-N removal rate and removal percentage reached 2.92 mg/(L·h) and 72.3%, respectively. In the batch experiments, NH4-N removal was achieved regardless of the presence or absence of nitrite. The main microorganisms relating to nitrogen metabolism in the system were Nitrospira, Nitrosomonas, Candidatus Kuenenia, and denitrifying bacteria. The metagenomics analysis indicated that these functional microorganisms constituted the main nitrogen metabolic network in the system, and microorganisms such as Rhodanobacter, Nitrosomonas, Defluvii, and Cyanobacteria had the possible capacity for oxygen production. Without organic carbon in the synthetic wastewater, heterotrophs including denitrifying bacteria might utilize organic carbon such as extracellular polymeric substances produced by autotrophs. The removal of NH4-N under oxygen-limited conditions might be achieved through interactions among nitrifying bacteria, anammox bacteria, and heterotrophs, which deserves further investigation.