Ammonium thiosulphate enhanced phytoextraction from mercury contaminated soil – Results from a greenhouse study

According to the ‘hard and soft’ acid-base principle, mercury is a ‘soft metal’ and will preferentially form soluble chemical complexes with sulphur-containing ligands. In this work mercury uptake by Chenopodium glaucum L. growing on mercury-contaminated soil was promoted using ammonium thiosulphate...

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Bibliographic Details
Published in:Journal of hazardous materials 2011-02, Vol.186 (1), p.119-127
Main Authors: Wang, Jianxu, Feng, Xinbin, Anderson, Christopher W.N., Qiu, Guangle, Ping, Li, Bao, Zhengduo
Format: Article
Language:English
Subjects:
ammonium thiosulfate
Ammonium thiosulphate
Applied sciences
Chenopodium
Chenopodium - metabolism
Chenopodium glaucum
Decontamination. Miscellaneous
Environmental Restoration and Remediation - methods
Environmental risk
Exact sciences and technology
Fractionation
Greenhouses
Mercury
Mercury - isolation & purification
Mercury - metabolism
Mercury contaminated soil
Oxides
Phytoextraction
phytoremediation
plant growth
plant tissues
planting
Plants (organisms)
polluted soils
Pollution
risk
Soil (material)
Soil and sediments pollution
Soil Pollutants - chemistry
Soil Pollutants - isolation & purification
Soil Pollutants - metabolism
Solubility
Thiosulfates
Thiosulfates - chemistry
Uptakes
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Summary:According to the ‘hard and soft’ acid-base principle, mercury is a ‘soft metal’ and will preferentially form soluble chemical complexes with sulphur-containing ligands. In this work mercury uptake by Chenopodium glaucum L. growing on mercury-contaminated soil was promoted using ammonium thiosulphate. The relative geochemical fractionation of mercury in the soil was subsequently investigated as a function of plant growth with and without thiosulphate amendment. The results indicate that the solubility of mercury is significantly increased through the application of thiosulphate to the soil. Substantially higher mercury levels were found in C. glaucum L. treated with 2gkg−1 thiosulphate of soil when compared to the non-treated plants. Compared with initial soil, soluble and exchangeable fractions were increased both in planted and planted treated plants. However, no significant difference was observed between the soils of the planted and planted treated plants. The oxide-bound mercury concentration was significantly decreased for the planted soil (treated and non-treated) at the end of the experiment. Moreover, this fraction was highly correlated with the plant tissue mercury concentration. Taken together, thiosulphate assisted phytoextraction could be used to reduce environmental risk apparent for mercury-contaminated soil through reducing the oxide bound fractions, while managing the bioavailable fractions (compared with no treated plant).
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2010.10.097