Sorption and Selectivity Sequences of Cd, Cu, Ni, Pb, and Zn in Single- and Multi-Component Systems in a Cultivated Chilean Mollisol

The heavy-metal sorption ability of soils is one of the most important factors that determine the fate of these contaminants in this medium of the biosphere. When heavy-metal containing soil amendments are land applied, a multi-component soil-solution equilibrium may occur in which various metals co...

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Bibliographic Details
Published in:Soil & sediment contamination 2010-07, Vol.19 (4), p.405-418
Main Authors: Molina, Mauricio, Manquian-Cerda, Karen, Escudey, Mauricio
Format: Article
Language:English
Subjects:
Cadmium
Chemical elements
competition
competitive interaction
Copper
heavy metal
Heavy metal content
Heavy metals
Langmuir's model
Lead
Lead (metal)
Mathematical models
Metals
Nickel
Particulates
partition coefficient
Selectivity
Soil
Soil (material)
Soil contaminants
Soil contamination
Sorption
sorption isotherm
Zinc
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Summary:The heavy-metal sorption ability of soils is one of the most important factors that determine the fate of these contaminants in this medium of the biosphere. When heavy-metal containing soil amendments are land applied, a multi-component soil-solution equilibrium may occur in which various metals compete simultaneously for the sorption sites on the soil particles. In order to determine the effect of competition among Cd, Cu, Ni, Pb, and Zn on sorption characteristics and the selectivity sequence of those heavy metals in a cultivated Mollisol of central Chile, batch sorption experiments were carried out in single- and multi-component systems. Heavy metal sorption isotherms in both types of system were well described by the Langmuir's equation. For all the metals evaluated, competition among them (multi-component system) decreased both the maximum sorption capacity, obtained from the Langmuir's isotherm, and the partition coefficient (K d ) compared to the single-component system. In addition, the simultaneous presence of the five metals promoted the sorption of Cd, and to a lesser extent of Ni, on more specific sorption sites of soil particles. Either in single- or multi-component system, Pb and Cu showed a higher selectivity and retention compared to Cd, Ni and Zn, which indicates that the later heavy metals would present a higher mobility in the soil-plant-water system. Since Langmuir's parameters and K d were highly affected by competition for all heavy metals evaluated, the use of single-component parameters in modeling assessment might lead to an incorrect description of the transport and fate of these contaminants in receiving Mollisols.
ISSN:1532-0383
1549-7887
DOI:10.1080/15320383.2010.486053