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Sensitivity of subglacial Lake Vostok's flow regime on environmental parameters |
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| Authors: | Malte Thoma Christoph Mayer Klaus Grosfeld |
| Institution: | aAlfred Wegener Institute for Polar and Marine Research, 5 Bussestrasse 24, 27570 Bremerhaven, Germany bBayerische Akademie der Wissenschaften, Kommission für Glaziologie, Alfons-Goppel Str. 11 80539 München, Germany |
| Abstract: | Subglacial lakes provide unique habitats, but the exact nature of physical and geochemical conditions are still a matter of debate and await direct sampling of water. Due to its isolation from external atmospheric forcing other environmental parameters influence the flow characteristics within the lake. In this study we use an improved treatment of the physical processes at the ice–water boundary interface to identify and quantify the impact of (1) the geothermal heat flux, (2) the heat flux from the lake into the ice, (3) the influence of the salinity of the lake water, and (4) the ice thickness on the size of the freezing area and the freeze/melt rates. We show that the modelled basal mass imbalance (that is the produced melt water minus the re-frozen water) depends on the geothermal heating as well as the heat flux into the ice. The circulation and the temperature distribution within subglacial Lake Vostok are rather stable against variations of geothermal heat flux, heat flux into the ice sheet, salinity of the lake, and small changes of the ice thickness above the lake. However, the flow regime for any subglacial lake with less than 2000 m ice thickness above, will be substantially different from those that experience higher pressures. This is because the buoyancy–temperature relationship reverses at this depth. |
| Keywords: | numerical ocean modeling ice–ocean interaction subglacial environment Lake Vostok sensitivity study Antarctica |
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