Sorption of heavy metals in organic horizons of acid forest soils at low added concentrations

The individual adsorption/desorption of Cu, Pb, and Zn in six soil samples taken from organic horizons of acid forest soils is studied in batch experiments. These three metals were chosen because of the varying extent of their sorption to the soil organic matter. The initial concentration range for...

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Published inSoil and water research Vol. 10; no. 1; pp. 1 - 9
Main Authors VYTOPILOVÁ, Michaela, TEJNECKÝ, Václav, BORŮVKA, Luboš, DRÁBEK, Ondřej
Format Journal Article
LanguageEnglish
Published Prague Czech Academy of Agricultural Sciences (CAAS) 01.01.2015
Czech Academy of Agricultural Sciences
Subjects
Acidic soils
Adsorption
Beech
Calcium
Coniferous forests
Copper
Desorption
Forest soils
Heavy metals
Lead
Metal concentrations
Organic matter
Organic soils
pH effects
risk elements
Soil contamination
Soil organic matter
Sorption
Zinc
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Summary:The individual adsorption/desorption of Cu, Pb, and Zn in six soil samples taken from organic horizons of acid forest soils is studied in batch experiments. These three metals were chosen because of the varying extent of their sorption to the soil organic matter. The initial concentration range for all metals is 0–200 mg/l. 0.01 mol/l Ca(NO3)2 was used as the background electrolyte. Soil samples were taken at random locations throughout a relatively small area and are characterized by small differences in mineralogical composition. Organic matter content and pH of soils are considered as the key factors causing differences in sorption/desorption behaviour of selected metals. In general, the sorption of all the three metals increased with a combination of higher pH value and increasing organic matter content. Anyway, the extent of the influence of these two characteristics on sorption behaviour of metals is different, for desorption significant differences were not determined. Copper sorption seems to reflect mainly the differences in organic matter content in addition to the differences in pH. The average amount of sorbed Pb was approximately 90%, Cu sorption averaged 60%, and that of Zn 30%. Desorption of Pb into 0.01 mol/l Ca(NO3)2 remained at approximately 4%, for Zn at 30%, and desorption of Cu reached up to 13% of the amount adsorbed. All the studied soils proved effective at immobilizing lead and copper, but zinc was relatively highly released from these soils, even when the sorbed amount was minimal. Different vegetational background of these samples (either beech or spruce forests) does not significantly influence the sorption extent of these metals as the lower pH of samples taken under spruce stands is probably compensated by higher organic matter content in these samples. The experimental data are fitted by the Freundlich equation and the parameters of this equation together with the adsorption and desorption efficiency are used for comparison of the behaviour of all the three metals among the six soils.
ISSN:1801-5395
1805-9384
DOI:10.17221/144/2014-SWR