Different low-molecular-mass organic acids specifically control leaching of arsenic and lead from contaminated soil

Low-molecular-mass organic acids (LMMOA) are of key importance for mobilisation and fate of metals in soil, by functioning as ligands that increase the amount of dissolved metal in solution or by dissociation of metal binding minerals. Column leaching experiments were performed on soil polluted with...

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Bibliographic Details
Published in:Journal of contaminant hydrology 2016-04, Vol.187, p.18-30
Main Authors: Ash, Christopher, Tejnecký, Václav, Borůvka, Luboš, Drábek, Ondřej
Format: Article
Language:English
Subjects:
Acetic Acid - chemistry
Acids, Acyclic - chemistry
Arsenic - chemistry
Carboxylic acid
Citric Acid - chemistry
Column leaching experiment
Czech Republic
Heavy metal
Lead - chemistry
Metalloid
Minerals - chemistry
Oxalic Acid - chemistry
Rhizosphere
Soil - chemistry
Soil contamination
Soil Pollutants - chemistry
Solutions
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Summary:Low-molecular-mass organic acids (LMMOA) are of key importance for mobilisation and fate of metals in soil, by functioning as ligands that increase the amount of dissolved metal in solution or by dissociation of metal binding minerals. Column leaching experiments were performed on soil polluted with As and Pb, in order to determine the specificity of LMMOA related release for individual elements, at varying organic acid concentrations. Acetic, citric and oxalic acids were applied in 12h leaching experiments over a concentration range (0.5–25mM) to soil samples that represent organic and mineral horizons. The leaching of As followed the order: oxalic>citric>acetic acid in both soils. Arsenic leaching was attributed primarily to ligand-enhanced dissolution of mineral oxides followed by As released into solution, as shown by significant correlation between oxalic and citric acids and content of Al and Fe in leaching solutions. Results suggest that subsurface mineral soil layers are more vulnerable to As toxicity. Leaching of Pb from both soils followed the order: citric>oxalic>acetic acid. Mineral soil samples were shown to be more susceptible to leaching of Pb than samples characterised by a high content of organic matter. The leaching efficiency of citric acid was attributed to formation of stable complexes with Pb ions, which other acids are not capable of. Results obtained in the study are evidence that the extent of As and Pb leaching in contaminated surface and subsurface soil depends significantly on the types of carboxylic acid involved. The implications of the type of acid and the specific element that can be mobilised become increasingly significant where LMMOA concentrations are highest, such as in rhizosphere soil. [Display omitted] •Leaching of As followed the order oxalic>citric>acetic acid from organic and mineral soil.•Dissolution of mineral oxides by oxalate led to arsenic release into solution.•Leaching of Pb followed the order citric>oxalic>acetic acid from both soils.•Efficiency of Pb leaching into citric acid was attributed to formation of stable complexes.•Overall, underlying mineral soil is more susceptible to leaching of As and Pb into organic acid solutions.
ISSN:0169-7722
1873-6009
DOI:10.1016/j.jconhyd.2016.01.009