Trace metal cycling in the Whau Estuary, Auckland, New Zealand.

Date

2008

Authors

Ellwood, Michael
Wilson, Peter
Vopel, Kay
Green, Malcolm

Journal Title

Journal ISSN

Volume Title

Publisher

CSIRO Publishing

Abstract

Dissolved Zn, Cd, Cu, Fe, and Pb concentrations were measured along a salinity gradient in the Whau Estuary, Auckland, New Zealand. We found a mid-salinity maximum in dissolved Zn and Cd concentrations, consistent with significant loss of these metals from the particulate phase into the dissolved phase. Changes in the chemical speciation of these two metals were coupled to changes in salinity and this was the major driver for Zn and Cd loss from particulate material. Contrastingly, Cu concentrations were conservative with salinity, whereas there was significant scavenging of Fe and Pb from the dissolved phase into the particulate phase. Analysis of sediment pore-water metal concentrations indicated a peak in Zn concentration within the suboxic layer. The peak occurred at a shallower depth than those for Mn and Fe. The concentration gradient across the sediment-water interface suggests that diffusional loss of Zn from the sediment pore water into the overlying water column was occurring. Conversely, the diffusion of Cu from the water column into the sediment pore water was likely to occur because pore-water Cu concentrations were lower than the overlying water column concentrations. The results from the present study show the importance of chemical speciation and the lability of metals attached to particulate material as potentially being a critical determinant on sediment metal concentrations.

Description

Keywords

Keywords: concentration (composition); copper; environmental fate; estuarine environment; measurement method; particulate matter; porewater; salinity; scavenging (chemistry); speciation (chemistry); trace metal; water column; Auckland; Australasia; New Zealand; Nor Contaminant fate; Speciation; Toxic metals; Trace elements

Citation

Source

Environmental Chemistry

Type

Journal article

Book Title

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2037-12-31