The influence of channel morphology on the chemical partitioning of Pb and Zn in contaminated river sediments

Abstract

The chemical partitioning of Pb and Zn was investigated in contaminated stream sediments from the River Ystwyth in mid-Wales, with changes in metal/substrate fixation being related to variations in channel morphology. Confinement of the channel by bedrock (chute zones) is sufficient to create very turbulent flow conditions facilitating the precipitation of Mn(IV) on surfaces of sand sized particles (2000-63 μm). Phase specific extraction of Pb (easily reducible fraction) from this particle size range indicates significant adsorption on precipitated forms of Mn. Conversely, under meandering conditions, association with the moderately reducible fraction (Fe-oxides) was more influential in the physico-chemical partitioning of Pb. Thus oxyhydroxide “precipitation zones” are created which affect heavy metal partitioning. These phenomena are, however, not observed on silt and clay sized particle coatings (<63 μm). The partitioning of Zn is not influenced by channel morphology due to a combined influence of the greater solubility of ionic species and subsequent transfer in solution and to the prevalence of total sediment Zn as sphalerite (ZnS).