Greenland Ice Sheet mass balance (1992–2020) from calibrated radar altimetry

Sebastian B. Simonsen; Valentina R. Barletta; William T. Colgan; Louise Sandberg Sørensen

doi:10.1029/2020GL091216

Greenland Ice Sheet mass balance (1992–2020) from calibrated radar altimetry

Sebastian B. Simonsen, Valentina R. Barletta, William T. Colgan, Louise Sandberg Sørensen

Department of Glaciology and Climate

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

20 Citations (Scopus)

Abstract

We present the first 1992–2020 record of Greenland Ice Sheet (GrIS) mass balance derived from multisatellite Ku-band altimetry. We employ an empirical approach as an alternative detailed to radar-propagation modeling, and instead convert elevation changes observed by radar altimetry into mass changes using spatiotemporal calibration fields. This calibration field is derived from a machine learning approach that optimizes the prediction of a previously published mass balance field as a function of ice sheet variables. Our mass balance record shows a GrIS contribution of 12.1 ± 2.3 mm sea-level equivalent since 1992, with more than 80% of this contribution occurring after 2003. Our record also suggests that the 2017 hydrological year is the first year in the 21st century which, within uncertainties, the GrIS was in balance. Overall, the 28-year radar-derived mass balance record we present highlights the potential of the method to provide operational mass balance estimates derived from multisatellite Ku-band altimetry.

Original language	English
Article number	e2020GL091216
Number of pages	10
Journal	Geophysical Research Letters
Volume	48
Issue number	3
DOIs	https://doi.org/10.1029/2020GL091216
Publication status	Published - 16 Feb 2021

Keywords

climate-change
Greenland Ice Sheet
mass balance
radar altimetry

Programme Area

Programme Area 5: Nature and Climate

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1029/2020GL091216Licence: CC BY

Cite this

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title = "Greenland Ice Sheet mass balance (1992–2020) from calibrated radar altimetry",

abstract = "We present the first 1992–2020 record of Greenland Ice Sheet (GrIS) mass balance derived from multisatellite Ku-band altimetry. We employ an empirical approach as an alternative detailed to radar-propagation modeling, and instead convert elevation changes observed by radar altimetry into mass changes using spatiotemporal calibration fields. This calibration field is derived from a machine learning approach that optimizes the prediction of a previously published mass balance field as a function of ice sheet variables. Our mass balance record shows a GrIS contribution of 12.1 ± 2.3 mm sea-level equivalent since 1992, with more than 80% of this contribution occurring after 2003. Our record also suggests that the 2017 hydrological year is the first year in the 21st century which, within uncertainties, the GrIS was in balance. Overall, the 28-year radar-derived mass balance record we present highlights the potential of the method to provide operational mass balance estimates derived from multisatellite Ku-band altimetry.",

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note = "Funding Information: The initial version of this study was conceived as a part of the ESA CCI Sea Level Budget Closure Project (ESA contract number 4000119910/17/I‐NB). The long time‐series radar altimetry was developed in the ESA CCI + Greenland Ice Sheet Project (ESA contract number 4000126523/10/I‐NB) and operationalized within the C3S project (Framework agreement ECMWF/COPERNICUS/2018/C3S_312b_Lot4_EODC). William Colgan was supported by the Programme for Monitoring the Greenland Ice Sheet (PROMICE). Publisher Copyright: {\textcopyright} 2021. The Authors.",

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N1 - Funding Information: The initial version of this study was conceived as a part of the ESA CCI Sea Level Budget Closure Project (ESA contract number 4000119910/17/I‐NB). The long time‐series radar altimetry was developed in the ESA CCI + Greenland Ice Sheet Project (ESA contract number 4000126523/10/I‐NB) and operationalized within the C3S project (Framework agreement ECMWF/COPERNICUS/2018/C3S_312b_Lot4_EODC). William Colgan was supported by the Programme for Monitoring the Greenland Ice Sheet (PROMICE). Publisher Copyright: © 2021. The Authors.

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N2 - We present the first 1992–2020 record of Greenland Ice Sheet (GrIS) mass balance derived from multisatellite Ku-band altimetry. We employ an empirical approach as an alternative detailed to radar-propagation modeling, and instead convert elevation changes observed by radar altimetry into mass changes using spatiotemporal calibration fields. This calibration field is derived from a machine learning approach that optimizes the prediction of a previously published mass balance field as a function of ice sheet variables. Our mass balance record shows a GrIS contribution of 12.1 ± 2.3 mm sea-level equivalent since 1992, with more than 80% of this contribution occurring after 2003. Our record also suggests that the 2017 hydrological year is the first year in the 21st century which, within uncertainties, the GrIS was in balance. Overall, the 28-year radar-derived mass balance record we present highlights the potential of the method to provide operational mass balance estimates derived from multisatellite Ku-band altimetry.

AB - We present the first 1992–2020 record of Greenland Ice Sheet (GrIS) mass balance derived from multisatellite Ku-band altimetry. We employ an empirical approach as an alternative detailed to radar-propagation modeling, and instead convert elevation changes observed by radar altimetry into mass changes using spatiotemporal calibration fields. This calibration field is derived from a machine learning approach that optimizes the prediction of a previously published mass balance field as a function of ice sheet variables. Our mass balance record shows a GrIS contribution of 12.1 ± 2.3 mm sea-level equivalent since 1992, with more than 80% of this contribution occurring after 2003. Our record also suggests that the 2017 hydrological year is the first year in the 21st century which, within uncertainties, the GrIS was in balance. Overall, the 28-year radar-derived mass balance record we present highlights the potential of the method to provide operational mass balance estimates derived from multisatellite Ku-band altimetry.

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Greenland Ice Sheet mass balance (1992–2020) from calibrated radar altimetry

Abstract

Keywords

Programme Area

UN SDGs

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