Stable Mercury Isotope Variation in Rice Plants (Oryza sativa L.) from the Wanshan Mercury Mining District, SW China

To study the sources and transformations of Hg in the rice plant (Oryza sativa L.), stable Hg isotope variations in different tissues (foliage, root, stem, and seed) of rice which were collected from the Wanshan mercury mine (WSMM, Guizhou province, SW China) were investigated by multicollector indu...

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Bibliographic Details
Published in:Environmental science & technology 2013-03, Vol.47 (5), p.2238-2245
Main Authors: Yin, Runsheng, Feng, Xinbin, Meng, Bo
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Biological and medical sciences
Chemical Fractionation
China
Environmental Monitoring
Fractionation
Fundamental and applied biological sciences. Psychology
Isotopes
Mercury
Mercury Isotopes - analysis
Mercury Isotopes - chemistry
Mining
Mining industry
Oryza - chemistry
Oryza - metabolism
Rice
Soil - chemistry
Soil adsorption
Soil and water pollution
Soil contamination
Soil Pollutants - analysis
Soil Pollutants - chemistry
Soil science
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Summary:To study the sources and transformations of Hg in the rice plant (Oryza sativa L.), stable Hg isotope variations in different tissues (foliage, root, stem, and seed) of rice which were collected from the Wanshan mercury mine (WSMM, Guizhou province, SW China) were investigated by multicollector inductively coupled plasma mass spectrometry (MC-ICP-MS). In comparison, Hg isotope compositions of paddy soil, lichen, and direct ambient air samples in WSMM were also analyzed. We observed that mass dependent fractionation (MDF) of Hg differed by up to ∼3.0‰ in δ202Hg values and that mass independent fractionation (MIF) of Hg isotopes affected the odd Hg isotopes to produce a ∼0.40‰ range in Δ199Hg (and Δ201Hg) values in tissues of rice plant. The 1:1 Δ199Hg/Δ201Hg ratio in tissues of rice supported the hypothesis that a fraction of Hg in tissues of rice plants has undergone a photoreduction process prior to being accumulated by rice plants. We suggest that the variation of MIF represents a mixing between soil Hg and atmospheric Hg in rice plants. The estimated fraction of atmospheric Hg (f) in tissues of rice followed the trend of f leaf > f stem > f seed > f root. Finally, we demonstrated a significant MDF of >1.0‰ in δ202Hg during the processes of absorption of atmospheric Hg by leaf tissues and of absorption of soil Hg by roots. Our study demonstrated that Hg isotopes may represent an important contribution both to the study of Hg transportation in plants and to the understanding of sources of Hg contamination to critical food crops.
ISSN:0013-936X
1520-5851
DOI:10.1021/es304302a