Controls on Greenland moulin geometry and evolution from the Moulin Shape model

Nearly all meltwater from glaciers and ice sheets is routed englacially through moulins. Therefore, the geometry and evolution of moulins has the potential to influence subglacial water pressure variations, ice motion, and the runoff hydrograph delivered to the ocean. We develop the Moulin Shape (Mo...

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Bibliographic Details
Published in:The Cryosphere
Main Authors: L. C. Andrews, K. Poinar, C. Trunz
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2022
Subjects:
Environmental sciences
GE1-350
Geology
QE1-996.5
Greenland
The Cryosphere
Online Access:https://doi.org/10.5194/tc-16-2421-2022
https://doaj.org/article/664a85f56d704445b223a8348b7d54f7
Description
Summary:Nearly all meltwater from glaciers and ice sheets is routed englacially through moulins. Therefore, the geometry and evolution of moulins has the potential to influence subglacial water pressure variations, ice motion, and the runoff hydrograph delivered to the ocean. We develop the Moulin Shape (MouSh) model, a time-evolving model of moulin geometry. MouSh models ice deformation around a moulin using both viscous and elastic rheologies and melting within the moulin through heat dissipation from turbulent water flow, both above and below the water line. We force MouSh with idealized and realistic surface melt inputs. Our results show that, under realistic surface melt inputs, variations in surface melt change the geometry of a moulin by approximately 10 % daily and over 100 % seasonally. These size variations cause observable differences in moulin water storage capacity and moulin water levels compared to a static, cylindrical moulin. Our results suggest that moulins are important storage reservoirs for meltwater, with storage capacity and water levels varying over multiple timescales. Implementing realistic moulin geometry within subglacial hydrologic models may therefore improve the representation of subglacial pressures, especially over seasonal periods or in regions where overburden pressures are high.

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