Sangam: A Confluence of Knowledge Streams

Modelling the transfer of supraglacial meltwater to the bed of Leverett Glacier, Southwest Greenland

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dc.creator Clason, CC
dc.creator Mair, DWF
dc.creator Nienow, PW
dc.creator Bartholomew, ID
dc.creator Sole, A
dc.creator Palmer, S
dc.creator Schwanghart, W
dc.date 2017-11-09T15:41:51Z
dc.date 2015-01-22
dc.date 2017-11-09T15:41:51Z
dc.identifier Vol. 9, pp. 123 - 138
dc.identifier 10.5194/tc-9-123-2015
dc.identifier http://hdl.handle.net/10871/30236
dc.identifier 1994-0416
dc.identifier Cryosphere
dc.description This is the final version of the article. Available from EGU via the DOI in this record.
dc.description Meltwater delivered to the bed of the Greenland Ice Sheet is a driver of variable ice-motion through changes in effective pressure and enhanced basal lubrication. Ice surface velocities have been shown to respond rapidly both to meltwater production at the surface and to drainage of supraglacial lakes, suggesting efficient transfer of meltwater from the supraglacial to subglacial hydrological systems. Although considerable effort is currently being directed towards improved modelling of the controlling surface and basal processes, modelling the temporal and spatial evolution of the transfer of melt to the bed has received less attention. Here we present the results of spatially distributed modelling for prediction of moulins and lake drainages on the Leverett Glacier in Southwest Greenland. The model is run for the 2009 and 2010 ablation seasons, and for future increased melt scenarios. The temporal pattern of modelled lake drainages are qualitatively comparable with those documented from analyses of repeat satellite imagery. The modelled timings and locations of delivery of meltwater to the bed also match well with observed temporal and spatial patterns of ice surface speed-ups. This is particularly true for the lower catchment ( < 1000 m a.s.l.) where both the model and observations indicate that the development of moulins is the main mechanism for the transfer of surface meltwater to the bed. At higher elevations (e.g. 1250-1500 m a.s.l.) the development and drainage of supraglacial lakes becomes increasingly important. At these higher elevations, the delay between modelled melt generation and subsequent delivery of melt to the bed matches the observ ed delay between the peak air temperatures and subsequent velocity speed-ups, while the instantaneous transfer of melt to the bed in a control simulation does not. Although both moulins and lake drainages are predicted to increase in number for future warmer climate scenarios, the lake drainages play an increasingly important role in both expanding the area over which melt accesses the bed and in enabling a greater proportion of surface melt to reach the bed.
dc.description We acknowledge the College of Physical Sciences, University of Aberdeen, the Leverhulme Trust through a Study Abroad Studentship and the Swedish Radiation Safety Authority, for funding awarded to C. Clason. Data collection was supported by the UK Natural Environment Research Council (through a studentship to I. Bartholomew and grants to P. Nienow and D. Mair) and the Edinburgh University Moss Centenary Scholarship (I. Bartholomew).
dc.language en
dc.publisher European Geosciences Union (EGU) / Copernicus Publications
dc.rights © Author(s) 2015. This work is distributed under the Creative Commons Attribution 3.0 License.
dc.title Modelling the transfer of supraglacial meltwater to the bed of Leverett Glacier, Southwest Greenland
dc.type Article


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