Stabilization of As, Cr, Cu, Pb and Zn in soil using amendments--a review |
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| Authors: | Kumpiene Jurate Lagerkvist Anders Maurice Christian |
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| Institution: | 1. Innovation Team of Remediation for Heavy Metal Contaminated Farmland of Chinese Academic of Agricultural Sciences, Institute of Agro-Environmental Protection, Ministry of Agriculture, Tianjin 300191, China;2. Key Laboratory of Production Environment and Agro-Product Safety, Institute of Agro-Environmental Protection, Ministry of Agriculture, Tianjin 300191, China;1. Adam Mickiewicz University in Poznań, Institute of Physical Geography and Environmental Planning, ul. Bogumi?a Krygowskiego 10, 61-680 Poznań, Poland;2. Wroc?aw University of Environmental and Life Sciences, Institute of Soil Sciences and Environmental Protection, ul. Grunwaldzka 53, 50-350 Wroc?aw, Poland;3. Adam Mickiewicz University in Poznań, Institute of Geology, ul. Bogumi?a Krygowskiego 12, 61-606 Poznań, Poland |
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| Abstract: | The spread of contaminants in soil can be hindered by the soil stabilization technique. Contaminant immobilizing amendments decrease trace element leaching and their bioavailability by inducing various sorption processes: adsorption to mineral surfaces, formation of stable complexes with organic ligands, surface precipitation and ion exchange. Precipitation as salts and co-precipitation can also contribute to reducing contaminant mobility. The technique can be used in in situ and ex situ applications to reclaim and re-vegetate industrially devastated areas and mine-spoils, improve soil quality and reduce contaminant mobility by stabilizing agents and a beneficial use of industrial by-products. This study is an overview of data published during the last five years on the immobilization of one metalloid, As, and four heavy metals, Cr, Cu, Pb and Zn, in soils. The most extensively studied amendments for As immobilization are Fe containing materials. The immobilization of As occurs through adsorption on Fe oxides by replacing the surface hydroxyl groups with the As ions, as well as by the formation of amorphous Fe(III) arsenates and/or insoluble secondary oxidation minerals. Cr stabilization mainly deals with Cr reduction from its toxic and mobile hexavalent form Cr(VI) to stable in natural environments Cr(III). The reduction is accelerated in soil by the presence of organic matter and divalent iron. Clays, carbonates, phosphates and Fe oxides were the common amendments tested for Cu immobilization. The suggested mechanisms of Cu retention were precipitation of Cu carbonates and oxy-hydroxides, ion exchange and formation of ternary cation-anion complexes on the surface of Fe and Al oxy-hydroxides. Most of the studies on Pb stabilization were performed using various phosphorus-containing amendments, which reduce the Pb mobility by ionic exchange and precipitation of pyromorphite-type minerals. Zn can be successfully immobilized in soil by phosphorus amendments and clays. |
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