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My research interests focus, in the broadest sense, on glacier hydrology. These interests range from small-scale energy balance variations over valley glaciers, and the routing of the resulting meltwater over the glacier surface and into the subglacial drainage system, to the large-scale variability of ice sheets during the late Quaternary. Glacier hydrology (the range of systems which carry water within and at the bed of ice sheets and glaciers) is one of the fundamental controls on the velocity of ice masses, and hence their possible responses to climate change. The main technique I employ in these investigations is the development of numerical models of the processes involved. These models use airborne- and satellite-derived remotely sensed data, and data obtained from field work, as input data to drive the models, to provide boundary conditions for the models, and for model calibration and evaluation. Most recently, this work has involved a particular focus on the occurrence and behaviour of supra glacial lakes on Greenland, and on Antarctic Ice Shelves, and I have also begun to work on the possible occurrence of subglacial water on Mars in the recent past, and potentially, at the present day
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QUATERNARY SCIENCE REVIEWS (2024): 107680-107680
James D. Kirkham,Kelly A. Hogan,Robert D. Larter, Ed Self, Ken Games,Mads Huuse,Margaret A. Stewart,Dag Ottesen, Daniel P. Le Heron, Alex Lawrence,Ian Kane,Neil S. Arnold,
MARINE GEOLOGY (2024): 107185
ANNALS OF GLACIOLOGYpp.1-6, (2023)
crossref(2023)
Journal of Glaciologyno. 268 (2022): 415-416
Nature Astronomyno. 11 (2022): 1256-1262
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