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Leaching of soil‐derived major and trace elements in an arable topsoil after the addition of biochar
Author(s) -
Riedel T.,
Hennessy P.,
Iden S. C.,
Koschinsky A.
Publication year - 2015
Publication title -
european journal of soil science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.244
H-Index - 111
eISSN - 1365-2389
pISSN - 1351-0754
DOI - 10.1111/ejss.12256
Subject(s) - biochar , leaching (pedology) , environmental chemistry , chemistry , cadmium , soil water , environmental science , soil science , pyrolysis , organic chemistry
Summary The addition of biochar to soils appears to be attractive for sequestering carbon and improving soil fertility. Biochar has been shown to alter carbon, nutrient and element cycling, but there is little information on the cycling of trace elements, which will be introduced increasingly into soils because of their use in modern technologies (e.g. rare earth elements) and significant concentrations in phosphate fertilizers. This study investigated, using column experiments, the effect of biochar addition on the leaching of soil‐derived trace metals from a soil contaminated with heavy metals. The biochar used in this study showed a clear potential to reduce soil‐derived trace metals, including transition metals, rare earth elements and heavy metals such as cadmium ( Cd ) and lead ( Pb ), while increasing the amounts of essential nutrients such as potassium ( K ) and molybdenum ( Mo ). Uranium was mobilized in the presence of biochar, indicating a risk of increased leaching in biochar‐amended soils. During elution under anoxic conditions manganese ( Mn ) and iron ( Fe ) oxides were reduced and a release of metals typically bound to these oxides such as Pb , cobalt ( Co ), zirconium ( Zr ) and niobium ( Nb ) was observed. The retention of dissolved organic matter ( DOM ) in the amended soil led to a retention of DOM ‐associated elements such as copper ( Cu ), zinc ( Zn ) and nickel ( Ni ). Analysis by liquid chromatography followed by ICP‐MS indicated an association with UV ‐active DOM . In previous studies conducted with inorganic metal species added to soil, an increased retention of metals has often been interpreted as being caused by cation exchange with the biochar. Our results indicate that the decreased mobility of trace elements is at least partly caused by an enhanced retention of metal‐binding DOM after biochar application.

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