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- Title
Amendment of sulfate with Se into soils further reduces methylmercury accumulation in rice.
- Authors
Wang, Yongjie; Wei, Zhongbo; Zeng, Qilong; Zhong, Huan
- Abstract
Purpose: Both selenium (Se) and sulfate could largely affect methylmercury (MeHg) dynamics and phytoavailability in soil-rice systems, while their combined effects are less understood. Here, we aimed at exploring the potential effects of sulfate on MeHg accumulation in rice in the presence of Se. Materials and methods: Rice was cultivated in inorganic Hg-spiked soils amended with Se only (selenite/selenate, 'Se treatments') or Se and sulfate ('Se + Sulfate treatments'). Soil parameters (e.g., pH and redox potential (Eh)), MeHg concentrations in soils, as well as MeHg or Se accumulation in rice plants were quantified during the rice growth period. Results and discussion: Soil MeHg concentrations were generally comparable between Se + Sulfate and Se treatments. However, MeHg uptake by rice plants in Se + Sulfate treatments was 9-31 % lower than those in Se treatments, possibly due to the increased soil pH and formation of iron sulfides, which may reduce MeHg phytoavailability under sulfate amendment. Furthermore, sulfate input enhanced Se accumulation in root (especially in the presence of selenate), which could be responsible for the increased MeHg distribution in root and thus lower MeHg distribution in grain. Consequently, the reduced plant uptake of MeHg together with the decreased MeHg distribution in grain resulted in decline of grain MeHg concentrations in Se + Sulfate treatments (8-31 % lower compared to Se treatments). Conclusions: Our results suggest that sulfate input with Se could further reduce MeHg accumulation in rice, which improved mechanistic understanding of MeHg behaviors in soil-rice systems.
- Subjects
METHYLMERCURY &; the environment; RICE farming; SELENIUM in soils
- Publication
Journal of Soils & Sediments: Protection, Risk Assessment, & Remediation, 2016, Vol 16, Issue 12, p2720
- ISSN
1439-0108
- Publication type
Article
- DOI
10.1007/s11368-016-1453-y