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Nickel, Copper, Zinc and Cadmium Cycling with Manganese in Lake Vanda (Wright Valley, Antarctica)
Authors:William J. Green  Brian R. Stage  Bonnie Jo Bratina  Shannon Wagers  Adam Preston  Kevin O’bryan  Joseph Shacat  Silvia Newell
Affiliation:(1) School of Interdisciplinary Studies, Miami University, Oxford, OH 45056, USA
Abstract:Lake Vanda is a closed-basin, permanently ice-covered lake located in the Wright Valley of Antarctica. The lakersquos more important geochemical features include the fact that it is fed by a single glacial melt water stream for only 6–8thinspweeks out of the year; that it has remained stratified for more than a millennium; and that, like other lakes in the region, it is remote from anthropogenic influence. These, together with the fact that it is among the least biologically productive lakes in the world, make it an ideal system for examining the transport, cycling and fate of trace metals in the aquatic environment. Like others before us, we view this lake as a natural geochemical laboratory, a flask in the desert. This paper presents the first set of closely spaced, vertical, profiles for dissolved and particulate Mn, Fe, Ni, Cu, Zn and Cd in the water column. Despite the absence of an outflow, metals in the fresh upper waters of the lake have extremely low concentrations, in the pico-molar to nano-molar range, and are partitioned largely into dissolved rather than particulate phases. Efficient metal scavenging by particles from these oxygen-rich waters is indicated. Significant increases in metal concentrations begin to appear at depth, between 57 and 60thinspm, and these increases coincide with the onset of manganese oxide dissolution in oxic, but lower pH waters. Vertical profiles suggest that the entire suite of trace metals (Ni, Cu, Zn, and Cd) is being released from manganese oxide carrier phases. Thermodynamic analysis indicates that Mn3O4 (i.e., the mineral hausmannite) may be important in metal sequestration and recycling in the deeper waters of Lake Vanda. Manganese-reducing organisms reported by Bratina etthinspal. (1998) are active in the zone of metal release and these could also contribute to the observed cycling.
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