Seasonal waves on glaciers

I. J. Hewitt; A. C. Fowler

doi:10.1002/hyp.7029

Seasonal waves on glaciers

I. J. Hewitt
, A. C. Fowler

University of Oxford

Research output: Contribution to journal › Article › peer-review

Abstract

Seasonal waves accompanying annual changes in the sliding velocity of ice travel down glacier at speeds much faster than the ice itself. A simple explanation for these waves in terms of the passage of a pressure wave through the subglacial drainage system is given. Drainage by both distributed and localized systems is explored, with the sliding velocity governed by a dependence on the effective pressure. Waves are caused by drainage through a slow distributed system, but may be damped if this is well connected to an efficient channelized system. A possible connection between these waves and high velocity spring events is discussed.

Original language	English
Pages (from-to)	3919-3930
Number of pages	12
Journal	Hydrological Processes
Volume	22
Issue number	19
DOIs	https://doi.org/10.1002/hyp.7029
Publication status	Published - 15 Sep 2008

Keywords

Glacier dynamics
Glacier sliding
Seasonal drainage evolution
Subglacial hydrology

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abstract = "Seasonal waves accompanying annual changes in the sliding velocity of ice travel down glacier at speeds much faster than the ice itself. A simple explanation for these waves in terms of the passage of a pressure wave through the subglacial drainage system is given. Drainage by both distributed and localized systems is explored, with the sliding velocity governed by a dependence on the effective pressure. Waves are caused by drainage through a slow distributed system, but may be damped if this is well connected to an efficient channelized system. A possible connection between these waves and high velocity spring events is discussed.",

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AB - Seasonal waves accompanying annual changes in the sliding velocity of ice travel down glacier at speeds much faster than the ice itself. A simple explanation for these waves in terms of the passage of a pressure wave through the subglacial drainage system is given. Drainage by both distributed and localized systems is explored, with the sliding velocity governed by a dependence on the effective pressure. Waves are caused by drainage through a slow distributed system, but may be damped if this is well connected to an efficient channelized system. A possible connection between these waves and high velocity spring events is discussed.

KW - Glacier dynamics

KW - Glacier sliding

KW - Seasonal drainage evolution

KW - Subglacial hydrology

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DO - 10.1002/hyp.7029

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ER -

Seasonal waves on glaciers

Abstract

Keywords

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