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The divergent effects of nitrate and ammonium application on mercury methylation, demethylation, and reduction in flooded paddy slurries TEXT SIZE: A A A

The production of methylmercury (MeHg) in flooded paddy fields determines its accumulation in rice grains; this, in turn, results in MeHg exposure risks for not only rice-eating humans but also wildlife. Nitrogen (N) fertilizers have been widely applied in rice cultivation fields to supply essential nutrients. However, the effects of N fertilizer addition on mercury (Hg) transformations are not unclear. This limits our understanding of MeHg formation in rice paddy ecosystems. In this study, we spiked three Hg tracers (200HgII, Me198Hg, and 202Hg0) in paddy slurries fertilized with urea, ammonium, and nitrate. The influences of N fertilization on Hg methylation, demethylation, and reduction and the underlying mechanisms were elucidated. The results revealed that dissimilatory nitrate reduction was the dominant process in the incubated paddy slurries. Nitrate addition inhibited HgII reduction, HgII methylation, and MeHg demethylation. Competition between nitrates and other electron acceptors (e.g., HgII, sulfate, or carbon dioxide) under dark conditions was the mechanism underlying nitrate-regulated Hg transformation. Ammonium and urea additions promoted HgII reduction, and anaerobic ammonium oxidation coupled with HgII reduction (Hgammox) was likely the reason. This work highlighted that nitrate addition not only inhibited HgII methylation but also reduced the demethylation of MeHg and therefore may generate more accumulation of MeHg in the incubated paddy slurries. Findings from this study link the biogeochemical cycling of N and Hg and provide crucial knowledge for assessing Hg risks in intermittently flooded wetland ecosystems.

Publication name

 Journal Of Hazardous Materials, Volume 460, DOI 10.1016/j.jhazmat.2023.132457, Article Number 132457, Published OCT 15 2023, Early Access SEP 2023

Author(s)

 Chen, Ji; Hu, Gongren; Liu, Jiang; Poulain, Alexandre J.; Pu, Qiang; Huang, Rong; Meng, Bo; Feng, Xinbin

Corresponding author(s) 

 Meng, Bo
 mengbo@vip.skleg.cn
 Chinese Acad Sci, State Key Lab Environm Geochem, Inst Geochem, Guiyang 550081, Peoples R China

Author(s) from IGCAS   Meng, Bo; Chen, Ji; Liu, Jiang; Pu, Qiang; Feng, Xinbin

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