Comparison between computed balance velocities and GPS measurements in the Lambert Glacier basin, East Antarctica

Testut, Laurent; Hurd, R; Coleman, Richard; Rémy, Frédérique; Legrésy, B.

doi:10.3189/172756403781815672

Cited by 23 publications

(21 citation statements)

References 25 publications

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“…Balance velocity (Figure 9) is lower than 1 m/yr near the dome and reaches 100 m/yr near the coast [85,86]. It is clear that ice flow divergence and convergence are controlled by the surface topography that plays a significant role in ice flow.…”

Section: Balance Velocity and Ice Dynamicsmentioning

confidence: 97%

Antarctic Ice Sheet and Radar Altimetry: A Review

Rémy

Parouty

2009

Remote Sensing

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Abstract:Altimetry is probably one of the most powerful tools for ice sheet observation. Our vision of the Antarctic ice sheet has been deeply transformed since the launch of the ERS1 satellite in 1991. With the launch of ERS2 and Envisat, the series of altimetric observations now provides 19 years of continuous and homogeneous observations that allow monitoring of the shape and volume of ice sheets. The topography deduced from altimetry is one of the relevant parameters revealing the processes acting on ice sheet. Moreover, altimeter also provides other parameters such as backscatter and waveform shape that give information on the surface roughness or snow pack characteristics.

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Section: Balance Velocity and Ice Dynamicsmentioning

confidence: 97%

Antarctic Ice Sheet and Radar Altimetry: A Review

Rémy

Parouty

2009

Remote Sensing

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“…The local accumulation surrounding the origin of each streamline is advected downstream as a point mass, in contrast to the flow line method of Testut et al (2003) which considered the surface between two distinct flow lines. The accuracy of the streamline tracing in the Lagrangian frame is ensured via a multi-step predictor-corrector algorithm with 25 m steps for the streamline integration.…”

Section: Ice Fluxesmentioning

confidence: 99%

Refined broad-scale sub-glacial morphology of Aurora Subglacial Basin, East Antarctica derived by an ice-dynamics-based interpolation scheme

et al. 2011

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Abstract. Ice thickness data over much of East Antarctica are sparse and irregularly distributed. This poses difficulties for reconstructing the homogeneous coverage needed to properly assess underlying sub-glacial morphology and fundamental geometric constraints on sea level rise. Here we introduce a new physically-based ice thickness interpolation scheme and apply this to existing ice thickness data in the Aurora Subglacial Basin region. The skill and robustness of the new reconstruction is demonstrated by comparison with new data from the ICECAP project. The interpolated morphology shows an extensive marine-based ice sheet, with considerably more area below sea-level than shown by prior studies. It also shows deep features connecting the coastal grounding zone with the deepest regions in the interior. This has implications for ice sheet response to a warming ocean and underscores the importance of obtaining additional high resolution data in these marginal zones for modelling ice sheet evolution.

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“…In fact, the correspondence between the ice flow line and the greatest slope direction is only valid at a large spatial scale because of shear stress effects at the local scale. Thus, to compute the greatest slope direction, the altimetric data were preliminary smoothed at a 100 km scale, as obtained by Testut et al [2003] by comparison to GPS data. The greatest slope for a given position was then estimated with 4 neighboring points on a 20 km perpendicular grid.…”

Section: New Parameterization Of the Flow Line Upstream Of Vostokmentioning

confidence: 99%

New modeling of the Vostok ice flow line and implication for the glaciological chronology of the Vostok ice core

2004

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[1] We have used new spaceborne (elevation) and airborne (ice thickness) data to constrain a 2D1/2 model of snow accumulation and ice flow along the Ridge B-Vostok station ice flow line (East Antarctica). We show that new evaluations of the ice flow line geometry (from the surface elevation), ice thickness (from low-frequency radar data), and basal melting and sliding change significantly the chronology of the Vostok ice core. This new Vostok dating model reconciles orbital and glaciological timescales and is in good agreement with the Dome Fuji glaciological timescale. At the same time, the new model shows significantly older ages than the previous GT4 timescale for the last glacial part, being thus in better agreement with the GRIP and GISP2 chronologies.

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Comparison between computed balance velocities and GPS measurements in the Lambert Glacier basin, East Antarctica

Cited by 23 publications

References 25 publications

Antarctic Ice Sheet and Radar Altimetry: A Review

Antarctic Ice Sheet and Radar Altimetry: A Review

Refined broad-scale sub-glacial morphology of Aurora Subglacial Basin, East Antarctica derived by an ice-dynamics-based interpolation scheme

New modeling of the Vostok ice flow line and implication for the glaciological chronology of the Vostok ice core

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