Changes in Antarctic Ice Sheet Surface Elevation from a Quarter-century of Combined Radar and Laser Altimetry

Satellite altimetry provides the longest continuous record of elevation change for assessing the mass balance of the Antarctic Ice Sheet, providing a unique opportunity to observe the ice sheet's response to changes in atmosphere and ocean over the last few decades. The accuracy of altimetry-me...

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Bibliographic Details
Main Authors: Nilsson, J., Paolo, F., Gardner, A., Bjerregaard Simonsen, S.
Format: Conference Object
Language:English
Published: 2018
Subjects:
Antarctic
The Antarctic
East Antarctica
Dronning Maud Land
West Antarctica
Amundsen Sea
Antarc*
Antarctica
Ice Sheet
Online Access:https://orbit.dtu.dk/en/publications/86ce2c8b-b579-4a1b-a737-1bfe56f6df2e
https://backend.orbit.dtu.dk/ws/files/164311470/25YPRA_Abstract_Book.pdf
id ftdtupubl:oai:pure.atira.dk:publications/86ce2c8b-b579-4a1b-a737-1bfe56f6df2e
record_format openpolar
spelling ftdtupubl:oai:pure.atira.dk:publications/86ce2c8b-b579-4a1b-a737-1bfe56f6df2e 2023-05-15T13:24:15+02:00 Changes in Antarctic Ice Sheet Surface Elevation from a Quarter-century of Combined Radar and Laser Altimetry Nilsson, J. Paolo, F. Gardner, A. Bjerregaard Simonsen, S. 2018 application/pdf https://orbit.dtu.dk/en/publications/86ce2c8b-b579-4a1b-a737-1bfe56f6df2e https://backend.orbit.dtu.dk/ws/files/164311470/25YPRA_Abstract_Book.pdf eng eng info:eu-repo/semantics/openAccess Nilsson , J , Paolo , F , Gardner , A & Bjerregaard Simonsen , S 2018 , ' Changes in Antarctic Ice Sheet Surface Elevation from a Quarter-century of Combined Radar and Laser Altimetry ' , 25 years of progress in radar altimetry symposium , Portugal , 24/09/2018 - 29/09/2018 pp. 201-202 . conferenceObject 2018 ftdtupubl 2022-08-14T08:33:34Z Satellite altimetry provides the longest continuous record of elevation change for assessing the mass balance of the Antarctic Ice Sheet, providing a unique opportunity to observe the ice sheet's response to changes in atmosphere and ocean over the last few decades. The accuracy of altimetry-measured elevation change, from which this mass balance is derived, is of vital importance for quantifying Antarctica's contribution to sea-level rise, and for understanding the physical processes governing changes of the ice sheet. Studies have shown that the rate of Antarctica's mass loss has accelerated over the last decade, largely a result of accelerated ice flow from the Amundsen Sea sector of West Antarctica. Not all areas of the ice sheet are thinning however. Increases in precipitation have resulted in rapid thickening over parts of East Antarctica, especially in Dronning Maud Land. A key question is how these relatively recent changes contrast against the observed longer-term trend and variability. Observations from overlapping satellite altimeter mission over the last three decades can help to answer this question. Here, we have developed a novel framework for cross-calibrating and synthesizing multimission altimetry records, with a further emphasis on generating state-of-the-art corrections for issues affecting the altimeter measurement (such as surface slope and variations in surface scattering) in order to increase the reliability and accuracy of the full altimetry record. The framework allows us to construct consistent time series at fine spatial and temporal scales for the majority of the ice sheet, with a corresponding assessment of the overall uncertainty of the solutions. We present results detailing the complex long-term pattern of elevation change, observed by the altimeters, and discuss the current improvement and imitations of the altimeter record. This effort will allow us to improve upon existing records of the long-term evolution of the Antarctic Ice Sheet, providing an invaluable dataset for ... Conference Object Amundsen Sea Antarc* Antarctic Antarctica Dronning Maud Land East Antarctica Ice Sheet West Antarctica Technical University of Denmark: DTU Orbit Antarctic The Antarctic East Antarctica Dronning Maud Land West Antarctica Amundsen Sea
institution Open Polar
collection Technical University of Denmark: DTU Orbit
op_collection_id ftdtupubl
language English
description Satellite altimetry provides the longest continuous record of elevation change for assessing the mass balance of the Antarctic Ice Sheet, providing a unique opportunity to observe the ice sheet's response to changes in atmosphere and ocean over the last few decades. The accuracy of altimetry-measured elevation change, from which this mass balance is derived, is of vital importance for quantifying Antarctica's contribution to sea-level rise, and for understanding the physical processes governing changes of the ice sheet. Studies have shown that the rate of Antarctica's mass loss has accelerated over the last decade, largely a result of accelerated ice flow from the Amundsen Sea sector of West Antarctica. Not all areas of the ice sheet are thinning however. Increases in precipitation have resulted in rapid thickening over parts of East Antarctica, especially in Dronning Maud Land. A key question is how these relatively recent changes contrast against the observed longer-term trend and variability. Observations from overlapping satellite altimeter mission over the last three decades can help to answer this question. Here, we have developed a novel framework for cross-calibrating and synthesizing multimission altimetry records, with a further emphasis on generating state-of-the-art corrections for issues affecting the altimeter measurement (such as surface slope and variations in surface scattering) in order to increase the reliability and accuracy of the full altimetry record. The framework allows us to construct consistent time series at fine spatial and temporal scales for the majority of the ice sheet, with a corresponding assessment of the overall uncertainty of the solutions. We present results detailing the complex long-term pattern of elevation change, observed by the altimeters, and discuss the current improvement and imitations of the altimeter record. This effort will allow us to improve upon existing records of the long-term evolution of the Antarctic Ice Sheet, providing an invaluable dataset for ...
format Conference Object
author Nilsson, J.
Paolo, F.
Gardner, A.
Bjerregaard Simonsen, S.
spellingShingle Nilsson, J.
Paolo, F.
Gardner, A.
Bjerregaard Simonsen, S.
Changes in Antarctic Ice Sheet Surface Elevation from a Quarter-century of Combined Radar and Laser Altimetry
author_facet Nilsson, J.
Paolo, F.
Gardner, A.
Bjerregaard Simonsen, S.
author_sort Nilsson, J.
title Changes in Antarctic Ice Sheet Surface Elevation from a Quarter-century of Combined Radar and Laser Altimetry
title_short Changes in Antarctic Ice Sheet Surface Elevation from a Quarter-century of Combined Radar and Laser Altimetry
title_full Changes in Antarctic Ice Sheet Surface Elevation from a Quarter-century of Combined Radar and Laser Altimetry
title_fullStr Changes in Antarctic Ice Sheet Surface Elevation from a Quarter-century of Combined Radar and Laser Altimetry
title_full_unstemmed Changes in Antarctic Ice Sheet Surface Elevation from a Quarter-century of Combined Radar and Laser Altimetry
title_sort changes in antarctic ice sheet surface elevation from a quarter-century of combined radar and laser altimetry
publishDate 2018
url https://orbit.dtu.dk/en/publications/86ce2c8b-b579-4a1b-a737-1bfe56f6df2e
https://backend.orbit.dtu.dk/ws/files/164311470/25YPRA_Abstract_Book.pdf
geographic Antarctic
The Antarctic
East Antarctica
Dronning Maud Land
West Antarctica
Amundsen Sea
geographic_facet Antarctic
The Antarctic
East Antarctica
Dronning Maud Land
West Antarctica
Amundsen Sea
genre Amundsen Sea
Antarc*
Antarctic
Antarctica
Dronning Maud Land
East Antarctica
Ice Sheet
West Antarctica
genre_facet Amundsen Sea
Antarc*
Antarctic
Antarctica
Dronning Maud Land
East Antarctica
Ice Sheet
West Antarctica
op_source Nilsson , J , Paolo , F , Gardner , A & Bjerregaard Simonsen , S 2018 , ' Changes in Antarctic Ice Sheet Surface Elevation from a Quarter-century of Combined Radar and Laser Altimetry ' , 25 years of progress in radar altimetry symposium , Portugal , 24/09/2018 - 29/09/2018 pp. 201-202 .
op_rights info:eu-repo/semantics/openAccess
_version_ 1766378375462518784

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