1. Mercury Isotope Signatures of Methylmercury in Rice Samples from the Wanshan Mercury Mining Area, China: Environmental Implications
- Author
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Jeroen E. Sonke, Buyun Du, Runsheng Yin, Laure Laffont, Che-Jen Lin, Ping Li, Christelle Lagane, Laurence Maurice, David Point, and Xinbin Feng
- Subjects
China ,010504 meteorology & atmospheric sciences ,Mercury Isotopes ,chemistry.chemical_element ,010501 environmental sciences ,Oryza ,01 natural sciences ,Mining ,chemistry.chemical_compound ,Environmental Chemistry ,Animals ,Humans ,Methylmercury ,0105 earth and related environmental sciences ,Isotope analysis ,Isotope ,biology ,food and beverages ,Heavy metals ,General Chemistry ,Mercury ,Methylmercury Compounds ,biology.organism_classification ,Mercury (element) ,chemistry ,13. Climate action ,Total hg ,Environmental chemistry ,Environmental science ,Environmental Monitoring - Abstract
Rice consumption is the primary pathway of methylmercury (MeHg) exposure for residents in mercury mining areas of Guizhou Province, China. In this study, compound-specific stable isotope analysis (CSIA) of MeHg was performed on rice samples collected in the Wanshan mercury mining area. An enrichment of 2.25‰ in total Hg (THg) δ202Hg was observed between rice and human hair, and THg Δ199Hg in hair was 0.12‰ higher than the value in rice. Rice and human hair samples in this study show distinct Hg isotope signatures compared to those of fish and human hair of fish consumers collected in China and other areas. Distinct Hg isotope signatures were observed between IHg and MeHg in rice samples (in mean±standard deviation: δ202HgIHg at −2.30‰±0.49‰, Δ199HgIHg at −0.08‰±0.04‰, n=7; δ202HgMeHg at −0.80‰±0.25‰, Δ199HgMeHg at 0.08‰±0.04‰, n=7). Using a binary mixing model, it is estimated that atmospheric Hg contributed 31%±16% of IHg and 17%±11% of THg in the rice samples and the IHg in soil caused by past mining ac...
- Published
- 2017