Greenland Ice Sheet Elevation Change From CryoSat‐2 and ICESat‐2

Nitin Ravinder; Andrew Shepherd; Inès Otosaka; Thomas Slater; Alan Muir; Lin Gilbert

doi:10.1029/2024gl110822

Greenland Ice Sheet Elevation Change From CryoSat‐2 and ICESat‐2

Nitin Ravinder^*, Andrew Shepherd, Inès Otosaka, Thomas Slater, Alan Muir, Lin Gilbert

^*Corresponding author for this work

Geography and Environmental Sciences Department

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

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Abstract

Although fluctuations in ice sheet surface mass balance lead to seasonal and interannual elevation changes, it is unclear if they are resolved differently by radar and laser satellite altimeters. We compare methods of computing elevation change from CryoSat‐2 and ICESat‐2 over the Greenland Ice Sheet to assess their consistency and to quantify recent change. Solutions exist such that interannual trends in the interior and the ablation zone agree to within −0.2 ± 1.5 and 3.3 ± 6.0 cm/yr, respectively, and that seasonal cycle amplitudes within the ablation zone agree to within 3.5 ± 38.0 cm. The agreement is best in the north where the measurements are relatively dense and worst in the southeast where the terrain is rugged. Using both missions, we estimate Greenland lost 196 ± 37 km3/yr of volume between 2010 and 2022 with an interannual variability of 129 km3/yr.

Original language	English
Article number	e2024GL110822
Number of pages	9
Journal	Geophysical Research Letters
Volume	51
Issue number	24
Early online date	20 Dec 2024
DOIs	https://doi.org/10.1029/2024gl110822
Publication status	Published - 28 Dec 2024

Keywords

laser
Greenland
radar
satellite altimetry

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10.1029/2024gl110822Licence: CC BY

2024GL110822.pdfFinal published version, 1.86 MBLicence: CC BY

Cite this

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title = "Greenland Ice Sheet Elevation Change From CryoSat‐2 and ICESat‐2",

abstract = "Although fluctuations in ice sheet surface mass balance lead to seasonal and interannual elevation changes, it is unclear if they are resolved differently by radar and laser satellite altimeters. We compare methods of computing elevation change from CryoSat‐2 and ICESat‐2 over the Greenland Ice Sheet to assess their consistency and to quantify recent change. Solutions exist such that interannual trends in the interior and the ablation zone agree to within −0.2 ± 1.5 and 3.3 ± 6.0 cm/yr, respectively, and that seasonal cycle amplitudes within the ablation zone agree to within 3.5 ± 38.0 cm. The agreement is best in the north where the measurements are relatively dense and worst in the southeast where the terrain is rugged. Using both missions, we estimate Greenland lost 196 ± 37 km3/yr of volume between 2010 and 2022 with an interannual variability of 129 km3/yr.",

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AU - Ravinder, Nitin

AU - Shepherd, Andrew

AU - Otosaka, Inès

AU - Slater, Thomas

AU - Muir, Alan

AU - Gilbert, Lin

PY - 2024/12/28

Y1 - 2024/12/28

N2 - Although fluctuations in ice sheet surface mass balance lead to seasonal and interannual elevation changes, it is unclear if they are resolved differently by radar and laser satellite altimeters. We compare methods of computing elevation change from CryoSat‐2 and ICESat‐2 over the Greenland Ice Sheet to assess their consistency and to quantify recent change. Solutions exist such that interannual trends in the interior and the ablation zone agree to within −0.2 ± 1.5 and 3.3 ± 6.0 cm/yr, respectively, and that seasonal cycle amplitudes within the ablation zone agree to within 3.5 ± 38.0 cm. The agreement is best in the north where the measurements are relatively dense and worst in the southeast where the terrain is rugged. Using both missions, we estimate Greenland lost 196 ± 37 km3/yr of volume between 2010 and 2022 with an interannual variability of 129 km3/yr.

AB - Although fluctuations in ice sheet surface mass balance lead to seasonal and interannual elevation changes, it is unclear if they are resolved differently by radar and laser satellite altimeters. We compare methods of computing elevation change from CryoSat‐2 and ICESat‐2 over the Greenland Ice Sheet to assess their consistency and to quantify recent change. Solutions exist such that interannual trends in the interior and the ablation zone agree to within −0.2 ± 1.5 and 3.3 ± 6.0 cm/yr, respectively, and that seasonal cycle amplitudes within the ablation zone agree to within 3.5 ± 38.0 cm. The agreement is best in the north where the measurements are relatively dense and worst in the southeast where the terrain is rugged. Using both missions, we estimate Greenland lost 196 ± 37 km3/yr of volume between 2010 and 2022 with an interannual variability of 129 km3/yr.

KW - laser

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KW - radar

KW - satellite altimetry

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Greenland Ice Sheet Elevation Change From CryoSat‐2 and ICESat‐2

Abstract

Keywords

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