1. NH4+-N/NO3−-N ratio controlling nitrogen transformation accompanied with NO2−-N accumulation in the oxic-anoxic transition zone.
- Author
-
Liu, Xiaoyan, Wu, Yaoguo, Sun, Ran, Hu, Sihai, Qiao, Zixia, Wang, Sichang, and Mi, Xiaohui
- Subjects
- *
NITROGEN in soils , *ATMOSPHERIC nitrogen , *LAKE sediments , *NITROGEN , *WATER , *WATER depth , *ZONING - Abstract
Although nitrogen (N) transformations have been widely studied under oxic or anoxic condition, few studies have been carried out to analyze the transformation accompanied with NO 2 −-N accumulation. Particularly, the control of mixed N species in N-transformation remains unclear in an oxic-anoxic transition zone (OATZ), a unique and ubiquitous redox environment. To bridge the gap, in this study, OATZ microcosms were simulated by surface water and sediments of a shallow lake. The N-transformation processes and rates at different NH 4 +-N/NO 3 −-N ratios, and NO 2 −-N accumulations in these processes were evaluated. N-transformation process exhibited a turning point. Simultaneous nitrification and denitrification occurred in its early stage (first 10 days, dissolved oxygen (DO) ≥ 2 mg/L) and then denitrification dominated (after 10 days, DO < 2 mg/L), which were not greatly affected by the NH 4 +-N/NO 3 −-N ratio, on the contrary, the transformation rates of NH 4 +-N and NO 3 −-N were distinctly affected. The NH 4 +-N transformation rates were positively correlated with the NH 4 +-N/NO 3 −-N ratio. The highest NO 3 −-N transformation rate was observed at an NH 4 +-N/NO 3 −-N ratio of 1:1 with organic carbon/NO 3 −-N of 3.09. The NO 2 −-N accumulation, which increased with the decrease in NH 4 +-N/NO 3 −-N ratio, was also controlled by organic carbon concentration and type. The peak concentration of NO 2 −-N accumulation occurred only when the NO 3 −-N transformation rate was particularly low. Thus, NO 2 −-N accumulation may be reduced by adjusting the control parameters related to N and organic carbon sources, which enhances the theoretical insights for N-polluted aquatic ecosystem bioremediation. • Nitrogen transformation in the oxic-anoxic transition zone was investigated. • Nitrification-denitrification occurred in early days, then denitrification dominated. • NH 4 +-N/NO 3 −-N ratio controlled their transformation rates and NO 2 −-N accumulation. • NO 2 −-N accumulation peaked when NO 3 −-N transformation rate was rather low. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF