Recirculating Ice Eddies in Subglacial Valleys

Abstract eng:
In many locations beneath both Greenland and Antarctica, ice flows across deep valleys, potentially forming viscous eddies that can lead to stratigraphic folds. We use a set up analogous to Moffatt [1], where our domain is a subglacial valley. We numerically solve the non-Newtonian Stokes equations with a shear-thinning power-law rheology to determine the critical valley angle for the eddies to form. Shear-thinning fluids allows for greater shear localization and, therefore, ice requires smaller valley angles (steeper slopes) to form eddies than a Newtonian fluid. Due to the significant variation of temperature from the warm base to the cold surface of the ice, we analyze eddy formation when the rheology is temperature dependent. The warmer basal ice is less viscous and eddies form in larger valley angles (shallower slopes). Finally, we solve for the ice flow over topography from the Gamburtsev subglacial mountains and show Moffatt eddies in the subglacial valleys.

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