AI Article Synopsis
- Ammonium oxidation is crucial for nitrogen transformation in ecosystems, with recent discoveries revealing both anammox and Feammox as pathways for anaerobic NH loss in soils.
- Experimental results show that Feammox plays a more significant role (54.6%-69.3%) than anammox in anaerobic NH loss during summer months in farmland soils around Lake Taihu, China.
- Different soil tillage practices affect Feammox rates significantly, but anammox rates remain consistent, emphasizing the importance of environmental factors like soil moisture and iron concentration on these processes.
Article Abstract
Ammonium (NH) oxidation is a key step in nitrogen transformation in ecosystems. Prior to the recent discovery of Feammox (anaerobic NH oxidation coupled with iron reduction), anammox (anaerobic NH oxidation coupled with nitrite reduction) was thought of as the only pathway by which anaerobic NH loss (NH directly to N) occurs in soils. Experimental evidence has confirmed that both anammox and Feammox contribute to anaerobic NH loss; however, their relative contributions to this process in farmland soils are largely unknown. Therefore, in this study, we examined the seasonal activities of anammox and Feammox in conventional tillage (CT) and no-tillage (NT) soils around Lake Taihu, China. Isotopic tracing experiments showed higher anammox and Feammox rates in summer than in other seasons, and the contribution of Feammox to anaerobic NH loss from the farmland soils (54.6%-69.3%) was higher than that of anammox. Further, the Feammox rates corresponding to the two soil tillage practices were significantly different, whereas their corresponding anammox rates showed no significant differences. Furthermore, molecular analysis showed that the abundance of Geobacteraceae differed significantly with season and tillage practice, whereas the abundance of anammox bacteria showed no significant differences between CT and NT practices. Structural equation modeling also revealed that the anammox rate was directly or indirectly driven by N availability and season, whereas the Feammox rate was driven by soil moisture content, Fe(III) concentration, Fe(III) reduction rates, tillage practice, and season. Overall, this study enhances understanding regarding anaerobic NH oxidation in farmland soils and highlight the importance of Feammox in NH loss in such an ecosystem.
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| http://dx.doi.org/10.1016/j.chemosphere.2022.135412 | DOI Listing |
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