The impact of global change on low-elevation blue-ice areas in Antarctica: a thermo-hydrodynamic modelling study
Authors: Rasmus, Kai; Beckmann, Aike
Source: Annals of Glaciology, Volume 46, Number 1, October 2007 , pp. 50-54(5)
Publisher: International Glaciological Society
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Abstract:
In Antarctica, low-elevation (<1000 m) blue-ice areas (LEBIAs) may experience melt-freeze cycles due to absorbed solar radiation and the small heat conductivity in the ice. In some cases, LEBIAs can contain significant amounts of subsurface liquid water. Since the spatial extent of blue-ice areas depends on climatic conditions, they have been seen as good indicators of warming in Antarctica. A two-dimensional (x-z) model has been developed to simulate the formation and water circulation in the subsurface ponds. The model results show that for a reasonable parameter set, the formation of liquid water within the ice can be reproduced. Vertical convection and a weak overturning circulation is generated which acts to stratify the fluid and transport warmer water downward, thereby causing additional melting at the base of the pond. In a multi-year integration, a global warming scenario mimicked by a decadal-scale increase (3°C per 100 years) in air temperature, leads to a general increase in subsurface water volume and changes in pond shape and depth. Even before melting at the surface is reached, heat that accumulates below a certain depth can no longer be removed during winter and leads to disintegration of the ice.Document Type: Research article
DOI: 10.3189/172756407782871774
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