The Nitrogen-Removal Efficiency of a Novel High-Efficiency Salt-Tolerant Aerobic Denitrifier Halomonas Alkaliphile HRL-9 Isolated from a Seawater Biofilter

摘要

Aerobic denitrification microbes have great potential to solve the problem of NO -N accumulation in industrialized recirculating aquaculture systems (RASs). A novel salt-tolerant aerobic denitrifier was isolated from a marine recirculating aquaculture system (RAS) and identified as HRL-9. Its aerobic denitrification performance in different dissolved oxygen concentrations, temperatures, and C/N ratios was studied. Investigations into nitrogen balance and nitrate reductase genes ( and ) were also carried out. The results showed that the optimal conditions for nitrate removal were temperature of 30 °C, a shaking speed of 150 rpm, and a C/N ratio of 10. For nitrate nitrogen (NO -N) (initial concentration 101.8 mg·L ), the sole nitrogen source of the growth of HRL-9, the maximum NO -N removal efficiency reached 98.0% after 24 h and the maximum total nitrogen removal efficiency was 77.3% after 48 h. Nitrogen balance analysis showed that 21.7% of NO -N was converted into intracellular nitrogen, 3.3% of NO -N was converted into other nitrification products (i.e., nitrous nitrogen, ammonium nitrogen, and organic nitrogen), and 74.5% of NO -N might be converted to gaseous products. The identification of functional genes confirmed the existence of the gene in strain HRL-9, but no gene was found. These results confirm that the aerobic denitrification strain, HRL-9, which has excellent aerobic denitrification abilities, can also help us understand the microbiological mechanism and transformation pathway of aerobic denitrification in RASs.