Tracking changes in the area, thickness, and volume of the Thwaites tabular iceberg "b30" using satellite altimetry and imagery

Icebergs account for half of all ice loss from Antarctica and, once released, present a hazard to maritime operations. Their melting leads to a redistribution of cold fresh water around the Southern Ocean which, in turn, influences water circulation, promotes sea ice formation, and fosters primary p...

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Bibliographic Details
Main Authors: Braakmann-Folgmann, A, Shepherd, A, Ridout, A
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Southern Ocean
Thwaites Glacier
Antarc*
Antarctica
Sea ice
The Cryosphere
Online Access:https://discovery.ucl.ac.uk/id/eprint/10134485/1/Ridout_tc-15-3861-2021.pdf
https://discovery.ucl.ac.uk/id/eprint/10134485/
id ftucl:oai:eprints.ucl.ac.uk.OAI2:10134485
record_format openpolar
spelling ftucl:oai:eprints.ucl.ac.uk.OAI2:10134485 2023-12-24T10:09:37+01:00 Tracking changes in the area, thickness, and volume of the Thwaites tabular iceberg "b30" using satellite altimetry and imagery Braakmann-Folgmann, A Shepherd, A Ridout, A 2021-08-19 text https://discovery.ucl.ac.uk/id/eprint/10134485/1/Ridout_tc-15-3861-2021.pdf https://discovery.ucl.ac.uk/id/eprint/10134485/ eng eng https://discovery.ucl.ac.uk/id/eprint/10134485/1/Ridout_tc-15-3861-2021.pdf https://discovery.ucl.ac.uk/id/eprint/10134485/ open The Cryosphere , 15 (8) pp. 3861-3876. (2021) Article 2021 ftucl 2023-11-27T13:07:30Z Icebergs account for half of all ice loss from Antarctica and, once released, present a hazard to maritime operations. Their melting leads to a redistribution of cold fresh water around the Southern Ocean which, in turn, influences water circulation, promotes sea ice formation, and fosters primary production. In this study, we combine CryoSat-2 satellite altimetry with MODIS and Sentinel-1 satellite imagery and meteorological data to track changes in the area, freeboard, thickness, and volume of the B30 tabular iceberg between 2012 and 2018. We track the iceberg elevation when it was attached to Thwaites Glacier and on a further 106 occasions after it calved using Level 1b CryoSat data, which ensures that measurements recorded in different acquisition modes and within different geographical zones are consistently processed. From these data, we map the iceberg's freeboard and estimate its thickness taking snowfall and changes in snow and ice density into account. We compute changes in freeboard and thickness relative to the initial average for each overpass and compare these to estimates from precisely located tracks using the satellite imagery. This comparison shows good agreement (correlation coefficient 0.87) and suggests that colocation reduces the freeboard uncertainty by 1.6 m. We also demonstrate that the snow layer has a significant impact on iceberg thickness change. Changes in the iceberg area are measured by tracing its perimeter, and we show that alternative estimates based on arc lengths recorded in satellite altimetry profiles and on measurements of the semi-major and semi-minor axes also capture the trend, though with a 48 % overestimate and a 15 % underestimate, respectively. Since it calved, the area of B30 has decreased from 1500±60 to 426±27 km2, its mean freeboard has fallen from 49.0±4.6 to 38.8±2.2 m, and its mean thickness has reduced from 315±36 to 198±14 m. The combined loss amounts to an 80%±16 % reduction in volume, two thirds (69%±14 %) of which is due to fragmentation and the ... Article in Journal/Newspaper Antarc* Antarctica Sea ice Southern Ocean The Cryosphere Thwaites Glacier University College London: UCL Discovery Southern Ocean Thwaites Glacier ENVELOPE(-106.750,-106.750,-75.500,-75.500)
institution Open Polar
collection University College London: UCL Discovery
op_collection_id ftucl
language English
description Icebergs account for half of all ice loss from Antarctica and, once released, present a hazard to maritime operations. Their melting leads to a redistribution of cold fresh water around the Southern Ocean which, in turn, influences water circulation, promotes sea ice formation, and fosters primary production. In this study, we combine CryoSat-2 satellite altimetry with MODIS and Sentinel-1 satellite imagery and meteorological data to track changes in the area, freeboard, thickness, and volume of the B30 tabular iceberg between 2012 and 2018. We track the iceberg elevation when it was attached to Thwaites Glacier and on a further 106 occasions after it calved using Level 1b CryoSat data, which ensures that measurements recorded in different acquisition modes and within different geographical zones are consistently processed. From these data, we map the iceberg's freeboard and estimate its thickness taking snowfall and changes in snow and ice density into account. We compute changes in freeboard and thickness relative to the initial average for each overpass and compare these to estimates from precisely located tracks using the satellite imagery. This comparison shows good agreement (correlation coefficient 0.87) and suggests that colocation reduces the freeboard uncertainty by 1.6 m. We also demonstrate that the snow layer has a significant impact on iceberg thickness change. Changes in the iceberg area are measured by tracing its perimeter, and we show that alternative estimates based on arc lengths recorded in satellite altimetry profiles and on measurements of the semi-major and semi-minor axes also capture the trend, though with a 48 % overestimate and a 15 % underestimate, respectively. Since it calved, the area of B30 has decreased from 1500±60 to 426±27 km2, its mean freeboard has fallen from 49.0±4.6 to 38.8±2.2 m, and its mean thickness has reduced from 315±36 to 198±14 m. The combined loss amounts to an 80%±16 % reduction in volume, two thirds (69%±14 %) of which is due to fragmentation and the ...
format Article in Journal/Newspaper
author Braakmann-Folgmann, A
Shepherd, A
Ridout, A
spellingShingle Braakmann-Folgmann, A
Shepherd, A
Ridout, A
Tracking changes in the area, thickness, and volume of the Thwaites tabular iceberg "b30" using satellite altimetry and imagery
author_facet Braakmann-Folgmann, A
Shepherd, A
Ridout, A
author_sort Braakmann-Folgmann, A
title Tracking changes in the area, thickness, and volume of the Thwaites tabular iceberg "b30" using satellite altimetry and imagery
title_short Tracking changes in the area, thickness, and volume of the Thwaites tabular iceberg "b30" using satellite altimetry and imagery
title_full Tracking changes in the area, thickness, and volume of the Thwaites tabular iceberg "b30" using satellite altimetry and imagery
title_fullStr Tracking changes in the area, thickness, and volume of the Thwaites tabular iceberg "b30" using satellite altimetry and imagery
title_full_unstemmed Tracking changes in the area, thickness, and volume of the Thwaites tabular iceberg "b30" using satellite altimetry and imagery
title_sort tracking changes in the area, thickness, and volume of the thwaites tabular iceberg "b30" using satellite altimetry and imagery
publishDate 2021
url https://discovery.ucl.ac.uk/id/eprint/10134485/1/Ridout_tc-15-3861-2021.pdf
https://discovery.ucl.ac.uk/id/eprint/10134485/
long_lat ENVELOPE(-106.750,-106.750,-75.500,-75.500)
geographic Southern Ocean
Thwaites Glacier
geographic_facet Southern Ocean
Thwaites Glacier
genre Antarc*
Antarctica
Sea ice
Southern Ocean
The Cryosphere
Thwaites Glacier
genre_facet Antarc*
Antarctica
Sea ice
Southern Ocean
The Cryosphere
Thwaites Glacier
op_source The Cryosphere , 15 (8) pp. 3861-3876. (2021)
op_relation https://discovery.ucl.ac.uk/id/eprint/10134485/1/Ridout_tc-15-3861-2021.pdf
https://discovery.ucl.ac.uk/id/eprint/10134485/
op_rights open
_version_ 1786209269605990400

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