Baolin Wang scite author profile

Rice paddies are agricultural sites of special concern because the potent toxin methylmercury (MeHg), produced in rice paddy soils, accumulates in rice grains. MeHg cycling is mostly controlled by microbes but their importance in MeHg production and degradation in paddy soils and across a Hg concentration gradient remains unclear. Here we used surface and rhizosphere soil samples in a series of incubation experiments in combination with stable isotope tracers to investigate the relative importance of different microbial groups on MeHg production and degradation across a Hg contamination gradient. We showed that sulfate reduction was the main driver of MeHg formation and concentration at control sites, and that methanogenesis had an important and complex role in MeHg cycling as Hg concentrations increased. The inhibition of methanogenesis at the mining sites led to an increase in MeHg production up to 16.6-fold and a decrease in MeHg degradation by up to 77%, suggesting that methanogenesis is associated with MeHg degradation as Hg concentrations increased. This study broadens our understanding of the roles of microbes in MeHg cycling and highlights methanogenesis as a key control of MeHg concentrations in rice paddies, offering the potential for mitigation of Hg contamination and for the safe production of rice in Hg-contaminated areas.

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Shifts in mercury methylation across a peatland chronosequence: From sulfate reduction to methanogenesis and syntrophy

Wang

Bravo

et al. 2020

Journal of Hazardous Materials

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Biogeochemical influences on net methylmercury formation proxies along a peatland chronosequence

Wang¹,

Zhong²,

Bishop³

et al. 2021

Geochimica et Cosmochimica Acta

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Sulfate-Reduction and Methanogenesis Affect Hg(II) and MeHg Reduction Across a Gradient of Hg-Contaminated Rice Paddies

Wang

Bravo

et al. 2023

Preprint

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Baolin Wang

Opposing spatial trends in methylmercury and total mercury along a peatland chronosequence trophic gradient

Methanogenesis Is an Important Process in Controlling MeHg Concentration in Rice Paddy Soils Affected by Mining Activities

Shifts in mercury methylation across a peatland chronosequence: From sulfate reduction to methanogenesis and syntrophy

Biogeochemical influences on net methylmercury formation proxies along a peatland chronosequence

Sulfate-Reduction and Methanogenesis Affect Hg(II) and MeHg Reduction Across a Gradient of Hg-Contaminated Rice Paddies

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