Massive subsurface ice formed by refreezing of ice-shelf melt ponds
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2016
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Abstract
Surface melt ponds form intermittently on several Antarctic ice shelves. Although implicated in ice-shelf break up, the consequences of such ponding for ice formation and ice-shelf structure have not been evaluated. Here we report the discovery of a massive subsurface ice layer, at least 16 km across, several kilometres long and tens of metres deep, located in an area of intense melting and intermittent ponding on Larsen C Ice Shelf, Antarctica. We combine borehole optical televiewer logging and radar measurements with remote sensing and firn modelling to investigate the layer, found to be ∼10 °C warmer and ∼170 kg m−3 denser than anticipated in the absence of ponding and hitherto used in models of ice-shelf fracture and flow. Surface ponding and ice layers such as the one we report are likely to form on a wider range of Antarctic ice shelves in response to climatic warming in forthcoming decades.
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Hubbard, B, Luckman, A, Ashmore, D, Bevan, S, Kulessa, B, Kuipers Munneke, P, phillipe, M, Jansen, D, Booth, A, Sevestre, H, Tison, J-L, O'Leary, M & Rutt, I 2016, 'Massive subsurface ice formed by refreezing of ice-shelf melt ponds', Nature Communications [E], vol. 7, no. 11897. https://doi.org/10.1038/ncomms11897