Topographic control on the dynamics of the Svalbard-Barents Sea ice sheet

The land surface of what is now the Barents Sea region may have been eroded to a sub-aerial platform prior to the Quaternary, due to both tectonic uplift-induced and sea-level lowering-induced erosion processes. The Barents Sea was then further eroded into its present form by the subsequent action of ice sheets. Two bedrock configurations, representing the pre-Quaternary sub-aerial Barents Shelf topography and the largely submarine morphology of the present day, were used as input to a glaciological ice sheet model so that the dynamic evolution of the maximum-sized ice sheets, caused solely by a change in bedrock elevation, could be identified. The ice-sheet model was run under constant glacial environmental conditions, until mass balance stability was reached, over both bedrock configurations. The simple parabolic ice sheet surface, which formed on a flat sub-aerial bedrock platform, was found to be significantly different in dynamic character compared with an ice sheet developed on the present submarine bedrock topography. In this latter situation, the central ice dome is drained by ice streams in Bjørnøyrenna, Storfjordrenna and smaller outlet glaciers in the north of the ice sheet.