Buri, Pascal, Miles, Evan, Steiner, Jakob, Immerzeel, Walter, Wagnon, Patrick and Pellicciotti, Francesca (2016) A physically based 3-D model of ice cliff evolution over debris-covered glaciers. Journal of Geophysical Research: Earth Surface, 121 (12). pp. 2471-2493. ISSN 2169-9003
Full text not available from this repository. (Request a copy)Abstract
We use high-resolution digital elevation models (DEMs) from unmanned aerial vehicle (UAV) surveys to document the evolution of four ice cliffs on the debris-covered tongue of Lirung Glacier, Nepal, over one ablation season. Observations show that out of four cliffs, three different patterns of evolution emerge: (i) reclining cliffs that flatten during the ablation season; (ii) stable cliffs that maintain a self-similar geometry; and (iii) growing cliffs, expanding laterally. We use the insights from this unique data set to develop a 3-D model of cliff backwasting and evolution that is validated against observations and an independent data set of volume losses. The model includes ablation at the cliff surface driven by energy exchange with the atmosphere, reburial of cliff cells by surrounding debris, and the effect of adjacent ponds. The cliff geometry is updated monthly to account for the modifications induced by each of those processes. Model results indicate that a major factor affecting the survival of steep cliffs is the coupling with ponded water at its base, which prevents progressive flattening and possible disappearance of a cliff. The radial growth observed at one cliff is explained by higher receipts of longwave and shortwave radiation, calculated taking into account atmospheric fluxes, shading, and the emission of longwave radiation from debris surfaces. The model is a clear step forward compared to existing static approaches that calculate atmospheric melt over an invariant cliff geometry and can be used for long-term simulations of cliff evolution and to test existing hypotheses about cliffs' survival.
Item Type: | Article |
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Uncontrolled Keywords: | ice cliffs; debris-covered glaciers; physically based model of cliff backwasting; pond-cliff modeling; Himalaya; cliff processes |
Subjects: | F800 Physical and Terrestrial Geographical and Environmental Sciences |
Department: | Faculties > Engineering and Environment > Geography and Environmental Sciences |
Depositing User: | Becky Skoyles |
Date Deposited: | 25 Jan 2017 15:39 |
Last Modified: | 11 Oct 2019 20:00 |
URI: | http://nrl.northumbria.ac.uk/id/eprint/29162 |
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