681.
• H. venusta TJPU05 showed excellent HN-AD ability at high salinity. • Successful expression of AMO, HAO, NAR and NIR confirmed the HN-AD ability of TJPU05. • H. venusta TJPU05 could tolerate high salt and high nitrogen environment. • H. venusta TJPU05 is a promising candidate for the bio-treatment of AW.
A novel salt-tolerant heterotrophic nitrification and aerobic denitrification (HN-AD) bacterium was isolated and identified as
Halomonas venusta TJPU05 (
H. venusta TJPU05). The nitrogen removal performance of
H. venusta TJPU05 in simulated water (SW) with sole or mixed nitrogen sources and in actual wastewater (AW) with high concentration of salt and nitrogen was investigated. The results showed that 86.12% of NH
4+-N, 95.68% of NO
3–-N, 100% of NO
2–-N and 84.57% of total nitrogen (TN) could be removed from SW with sole nitrogen sources within 24 h at the utmost.
H. venusta TJPU05 could maximally remove 84.06% of NH
4+-N, 92.33% of NO
3–-N, 92.9% of NO
2–-N and 77.73% of TN from SW with mixed nitrogen source when the salinity was above 8%. The application of
H. venusta TJPU05 in treating AW with high salt and high ammonia nitrogen led to removal efficiencies of 50.96%, 47.28% and 43.19% for NH
4+-N, NO
3–-N and TN respectively without any optimization. Furthermore, the activities of nitrogen removal–related enzymes of the strain were also investigated. The successful detection of high level activities of ammonia oxygenase (AMO), hydroxylamine oxidase (HAO), nitrate reductase (NAR) and nitrite reductase (NIR) enzymes under high salinity condition further proved the HN-AD and salt-tolerance capacity of
H. venusta TJPU05. These results demonstrated that the
H. venusta TJPU05 has great potential in treating high-salinity nitrogenous wastewater.
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