Diurnal and semidiurnal tide-induced lateral movement of Ronne Ice Shelf, Antarctica

Recent GPS observations from a spatially extensive network across Ronne Ice Shelf show significant daily ice flow variations. At all sites, the almost‐synchronous horizontal displacements occur at diurnal and semidiurnal tidal periods. During spring tides, displacements, velocities and strains near...

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Veröffentlicht in:	Geophysical research letters 2012-05, Vol.39 (10), p.n/a
Hauptverfasser:	Makinson, Keith, King, Matt A., Nicholls, Keith W., Hilmar Gudmundsson, G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Antarctica Cryosphere Diurnal variations Earth sciences Earth, ocean, space Exact sciences and technology Geodetics Geographic information systems Global Positioning System Horizontal Ice ice shelf Ice shelves Mathematical models Oscillations Physical oceanography Satellite navigation systems Satellites Shelves Spring tides Streams tilt
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creator	Makinson, Keith King, Matt A. Nicholls, Keith W. Hilmar Gudmundsson, G.
description	Recent GPS observations from a spatially extensive network across Ronne Ice Shelf show significant daily ice flow variations. At all sites, the almost‐synchronous horizontal displacements occur at diurnal and semidiurnal tidal periods. During spring tides, displacements, velocities and strains near the ice front have superimposed oscillations that are ±300% of their mean values and occur over a six‐hour period, resulting in regular ice shelf flow reversals. Close to ice stream grounding lines, however, the horizontal diurnal and semidiurnal signals decay and almost vanish. From our analysis, we conclude that ice shelves respond primarily elastically to tidal tilting, thus accounting for the observed diurnal and semidiurnal flow variations, and their amplification toward the ice shelf front. Our findings suggest that detailed modeling of these data could provide improved ice shelf and ice stream models for correctly simulating ice shelf flow and predicting future ice sheet evolution. Key Points The flow of Ronne Ice Shelf responds to ocean tidal forcing up to {plus minus}300% Tilting of ice shelves by tides is the primary driver of daily oscillations Advances understanding of forces acting on ice shelves and ice streams
doi_str_mv	10.1029/2012GL051636
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Res. Lett</addtitle><description>Recent GPS observations from a spatially extensive network across Ronne Ice Shelf show significant daily ice flow variations. At all sites, the almost‐synchronous horizontal displacements occur at diurnal and semidiurnal tidal periods. During spring tides, displacements, velocities and strains near the ice front have superimposed oscillations that are ±300% of their mean values and occur over a six‐hour period, resulting in regular ice shelf flow reversals. Close to ice stream grounding lines, however, the horizontal diurnal and semidiurnal signals decay and almost vanish. From our analysis, we conclude that ice shelves respond primarily elastically to tidal tilting, thus accounting for the observed diurnal and semidiurnal flow variations, and their amplification toward the ice shelf front. 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subjects	Antarctica Cryosphere Diurnal variations Earth sciences Earth, ocean, space Exact sciences and technology Geodetics Geographic information systems Global Positioning System Horizontal Ice ice shelf Ice shelves Mathematical models Oscillations Physical oceanography Satellite navigation systems Satellites Shelves Spring tides Streams tilt
title	Diurnal and semidiurnal tide-induced lateral movement of Ronne Ice Shelf, Antarctica
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