Present stability of the Larsen C ice shelf, Antarctic Peninsula

We modelled the flow of the Larsen C and northernmost Larsen D ice shelves, Antarctic Peninsula, using a model of continuum mechanics of ice flow, and applied a fracture criterion to the simulated velocities to investigate the ice shelf’s present-day stability. Constraints come from satellite data a...

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Bibliographic Details
Main Authors:	Jansen, D., Kulessa, B., Sammonds, P.R., Luckman, A., King, Edward, Glasser, N.F.
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	International Glaciological Society 2010
Subjects:	Glaciology Antarctic Antarctic Peninsula Austral Kenyon Kenyon peninsula Antarc* Ice Shelf Ice Shelves Journal of Glaciology
Online Access:	http://nora.nerc.ac.uk/id/eprint/11260/ http://www.igsoc.org/journal/56/198/j10J001.pdf

id	ftnerc:oai:nora.nerc.ac.uk:11260
record_format	openpolar
spelling	ftnerc:oai:nora.nerc.ac.uk:11260 2023-05-15T13:45:10+02:00 Present stability of the Larsen C ice shelf, Antarctic Peninsula Jansen, D. Kulessa, B. Sammonds, P.R. Luckman, A. King, Edward Glasser, N.F. 2010 http://nora.nerc.ac.uk/id/eprint/11260/ http://www.igsoc.org/journal/56/198/j10J001.pdf unknown International Glaciological Society Jansen, D.; Kulessa, B.; Sammonds, P.R.; Luckman, A.; King, Edward orcid:0000-0003-3793-3915 Glasser, N.F. 2010 Present stability of the Larsen C ice shelf, Antarctic Peninsula. Journal of Glaciology, 56 (198). 593-600. Glaciology Publication - Article PeerReviewed 2010 ftnerc 2023-02-04T19:27:12Z We modelled the flow of the Larsen C and northernmost Larsen D ice shelves, Antarctic Peninsula, using a model of continuum mechanics of ice flow, and applied a fracture criterion to the simulated velocities to investigate the ice shelf’s present-day stability. Constraints come from satellite data and geophysical measurements from the 2008/09 austral summer. Ice-shelf thickness was derived from BEDMAP and ICESat data, and the density–depth relationship was inferred from our in situ seismic reflection data. We obtained excellent agreements between modelled and measured ice-flow velocities, and inferred and observed distributions of rifts and crevasses. Residual discrepancies between regions of predicted fracture and observed crevasses are concentrated in zones where we assume a significant amount of marine ice and therefore altered mechanical properties in the ice column. This emphasizes the importance of these zones and shows that more data are needed to understand their influence on ice-shelf stability. Modelled flow velocities and the corresponding stress distribution indicate that the Larsen C ice shelf is stable at the moment. However, weakening of the elongated marine ice zones could lead to acceleration of the ice shelf due to decoupling from the slower parts in the northern inlets and south of Kenyon Peninsula, leading to a velocity distribution similar to that in the Larsen B ice shelf prior to its disintegration. Article in Journal/Newspaper Antarc* Antarctic Antarctic Peninsula Ice Shelf Ice Shelves Journal of Glaciology Natural Environment Research Council: NERC Open Research Archive Antarctic Antarctic Peninsula Austral Kenyon ENVELOPE(-174.867,-174.867,-85.167,-85.167) Kenyon peninsula ENVELOPE(-63.550,-63.550,-68.450,-68.450)
institution	Open Polar
collection	Natural Environment Research Council: NERC Open Research Archive
op_collection_id	ftnerc
language	unknown
topic	Glaciology
spellingShingle	Glaciology Jansen, D. Kulessa, B. Sammonds, P.R. Luckman, A. King, Edward Glasser, N.F. Present stability of the Larsen C ice shelf, Antarctic Peninsula
topic_facet	Glaciology
description	We modelled the flow of the Larsen C and northernmost Larsen D ice shelves, Antarctic Peninsula, using a model of continuum mechanics of ice flow, and applied a fracture criterion to the simulated velocities to investigate the ice shelf’s present-day stability. Constraints come from satellite data and geophysical measurements from the 2008/09 austral summer. Ice-shelf thickness was derived from BEDMAP and ICESat data, and the density–depth relationship was inferred from our in situ seismic reflection data. We obtained excellent agreements between modelled and measured ice-flow velocities, and inferred and observed distributions of rifts and crevasses. Residual discrepancies between regions of predicted fracture and observed crevasses are concentrated in zones where we assume a significant amount of marine ice and therefore altered mechanical properties in the ice column. This emphasizes the importance of these zones and shows that more data are needed to understand their influence on ice-shelf stability. Modelled flow velocities and the corresponding stress distribution indicate that the Larsen C ice shelf is stable at the moment. However, weakening of the elongated marine ice zones could lead to acceleration of the ice shelf due to decoupling from the slower parts in the northern inlets and south of Kenyon Peninsula, leading to a velocity distribution similar to that in the Larsen B ice shelf prior to its disintegration.
format	Article in Journal/Newspaper
author	Jansen, D. Kulessa, B. Sammonds, P.R. Luckman, A. King, Edward Glasser, N.F.
author_facet	Jansen, D. Kulessa, B. Sammonds, P.R. Luckman, A. King, Edward Glasser, N.F.
author_sort	Jansen, D.
title	Present stability of the Larsen C ice shelf, Antarctic Peninsula
title_short	Present stability of the Larsen C ice shelf, Antarctic Peninsula
title_full	Present stability of the Larsen C ice shelf, Antarctic Peninsula
title_fullStr	Present stability of the Larsen C ice shelf, Antarctic Peninsula
title_full_unstemmed	Present stability of the Larsen C ice shelf, Antarctic Peninsula
title_sort	present stability of the larsen c ice shelf, antarctic peninsula
publisher	International Glaciological Society
publishDate	2010
url	http://nora.nerc.ac.uk/id/eprint/11260/ http://www.igsoc.org/journal/56/198/j10J001.pdf
long_lat	ENVELOPE(-174.867,-174.867,-85.167,-85.167) ENVELOPE(-63.550,-63.550,-68.450,-68.450)
geographic	Antarctic Antarctic Peninsula Austral Kenyon Kenyon peninsula
geographic_facet	Antarctic Antarctic Peninsula Austral Kenyon Kenyon peninsula
genre	Antarc* Antarctic Antarctic Peninsula Ice Shelf Ice Shelves Journal of Glaciology
genre_facet	Antarc* Antarctic Antarctic Peninsula Ice Shelf Ice Shelves Journal of Glaciology
op_relation	Jansen, D.; Kulessa, B.; Sammonds, P.R.; Luckman, A.; King, Edward orcid:0000-0003-3793-3915 Glasser, N.F. 2010 Present stability of the Larsen C ice shelf, Antarctic Peninsula. Journal of Glaciology, 56 (198). 593-600.
_version_	1766214456273010688

Present stability of the Larsen C ice shelf, Antarctic Peninsula

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