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Glaciohydraulic supercoolingDivision of Geography and Environmental Sciences, University of Hertfordshire, Hatfield AL10 9AB, UK
School of Physical and Geographical Sciences, William Smith Building, Keele University, Keele ST5 5BG, UK, p.g.knight{at}esci.keele.ac.uk In this progress report we review recent work which has investigated the process of glaciohydraulic supercooling and its significance for a range of glaciological and geological phenomena. Since our last report (Knight and Cook, 2008), glaciohydraulic supercooling has been identified in new locations and under hitherto unrecognized conditions, both for modern and formerly glaciated environments. Recent work has examined the record of supercooling preserved in the landform and sediment record, within tunnel valleys and in sequences of melt-out till. We suggest that supercooling may also have important implications for glacier dynamics because of the role it may play in controlling the geometry of subglacial overdeepenings, which in turn acts as a control on the dynamics of tidewater glaciers. Despite these numerous recent scientific advances, there remains a need to critically evaluate the importance of supercooling for the various aspects of sediment entrainment and flux, glacial geomorphology and ice dynamics with which it has become associated. We illustrate how collaboration with researchers in other branches of cryospheric science, such as sea-ice scientists, might shed new light on the significance of supercooling within these various aspects of glacier science.
Key Words: glacial geomorphology • glacier dynamics • glaciohydraulic supercooling • melt-out till • subglacial overdeepening.
This version was published on October
1, 2009 Progress in Physical Geography, Vol. 33, No. 5,
705-710 (2009) |
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