Publication Details
Bibby, Rebecca L.; Webster-Brown, Jenny G. 2006. Trace metal adsorption onto urban stream suspended particulate matter (Auckland region, New Zealand) Applied Geochemistry 21(7)-1135-1151
Title:
Trace metal adsorption onto urban stream suspended particulate matter (Auckland region, New Zealand)
Author(s):
Bibby, Rebecca L.; Webster-Brown, Jenny G.
Year Published:
2006
Publisher:
Publisher Location:
Publication Type:
Article in journal
Abstract:
Trace metal adsorption to suspended particulate matter (SPM) influences bioavailability and toxicity of trace metals in natural waters. For highly contaminated urban catchments in the greater Auckland (New Zealand) area, trace metal adsorption to SPM was assessed and compared to similar data from non-urban catchments in the Auckland region, to determine whether there was any difference in the ability of the SPM to adsorb Cu, Pb and Zn. The degree of trace metal adsorption onto the SPM was assessed by way of adsorption edge experiments. It was found that the ability of the Auckland urban SPM to adsorb trace metals decreased in the order Pb > Cu > Zn. Little difference in adsorption was observed between the non-urban Waikato and Kaipara River SPM and urban SPM, or between urban SPM from different flow regimes and seasons, despite some compositional differences in the SPM. This suggests that on the basis of a single surface-binding site, metal adsorption onto SPM could be readily predicted across a range of urban and non-urban catchments in the Auckland region. Adsorption edges were modelled with a diffuse layer, surface complexation model to assess the role of Fe-oxide in adsorption. The MINTEQA2 model was used, assuming Fe-oxide (as HFO) was the only adsorbing surface. There was generally good agreement between observed and modelled adsorption for Pb, indicating the importance of Fe-oxide surfaces for Pb adsorption. However, the model did not predict Zn or Cu adsorption as well. The TOC content of the SPM, and presence of dissolved ligands and organic matter in the water column, appeared to play an important role in Cu adsorption to the SPM. For Zn, the presence of adsorbing surfaces other than HFO appeared to influence adsorption.
Long Term Objectives:
Keywords:
Biogeophysical; Ligands; P 2000 FRESHWATER POLLUTION; Particulate Matter; Total organic carbon; Pollution effects; Heavy metals; Adsorption; Article Geographic Terms: New Zealand; Stormwater runoff; Toxicity; Q202186 Chemistry of suspended matter; Suspended particulate matter; Water Quality; Streams; Organic matter; water column; Bioavailability; New Zealand, North I., Auckland; SW 0880 Chemical processes; Catchment Areas; Model Studies; New Zealand, North I., Waikato; Suspended Sediments; Zinc; Catchment area; Catchments; Freshwater AQ 00001 Water Resources and Supplies; Geochemistry; Metals; Trace Metals