Constraints on ice volume changes of the WAIS and Ross Ice Shelf since the LGM based on cosmogenic exposure ages in the Darwin-Hatherton glacial system of the Transantarctic Mountains.

Quantitative assessment of the spatial and temporal scale of ice volume change of the West Antarctic ice sheet (WAIS) and Ross Ice Shelf since the last glacial maximum (LGM) ~20 ka is essential to accurately predict ice sheet response to current and future climate change. Although global sea level r...

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Bibliographic Details
Main Authors: Fink, D, Storey, B, Hood, D, Joy, K, Shulmeister, J
Format: Conference Object
Language:English
Published: Copernicus Publications 2010
Subjects:
Ice
Glaciers
Antarctica
Mountains
Age estimation
Quaternary period
Antarctic
Darwin Glacier
Diamond Hill
Framnes
Framnes Mountains
Hatherton Glacier
Mackintosh
New Zealand
Roadend Nunatak
Ross Ice Shelf
The Antarctic
Transantarctic Mountains
Wellman
West Antarctic Ice Sheet
Antarc*
Ice Sheet
Ice Shelf
Online Access:http://apo.ansto.gov.au/dspace/handle/10238/2247
id ftansto:oai:apo-prod.ansto.gov.au:10238/2247
record_format openpolar
institution Open Polar
collection Australian Nuclear Science and Technology Organisation: ANSTO Publications Online
op_collection_id ftansto
language English
topic Ice
Glaciers
Antarctica
Mountains
Age estimation
Quaternary period
spellingShingle Ice
Glaciers
Antarctica
Mountains
Age estimation
Quaternary period
Fink, D
Storey, B
Hood, D
Joy, K
Shulmeister, J
Constraints on ice volume changes of the WAIS and Ross Ice Shelf since the LGM based on cosmogenic exposure ages in the Darwin-Hatherton glacial system of the Transantarctic Mountains.
topic_facet Ice
Glaciers
Antarctica
Mountains
Age estimation
Quaternary period
description Quantitative assessment of the spatial and temporal scale of ice volume change of the West Antarctic ice sheet (WAIS) and Ross Ice Shelf since the last glacial maximum (LGM) ~20 ka is essential to accurately predict ice sheet response to current and future climate change. Although global sea level rose by approximately 120 metres since the LGM, the contribution of polar ice sheets is uncertain and the timing of any such contribution is controversial. Mackintosh et al (2007) suggest that sectors of the EAIS, similar to those studied at Framnes Mountains where the ice sheet slowly calves at coastal margins, have made marginal contributions to global sea-level rise between 13 and 7 ka. In contrast, Stone et al (2003) document continuing WAIS decay during the mid-late Holocene, raising the question of what was the response of the WAIS since LGM and into the Holocene. Terrestrial evidence is restricted to sparse coastal oasis and ice free mountains which archive limits of former ice advances. Mountain ranges flanking the Darwin-Hatherton glaciers exhibit well-defined moraines, weathering signatures, boulder rich plateaus and glacial tills, which preserve the evidence of advance and retreat of the ice sheet during previous glacial cycles. Previous studies suggest a WAIS at the LGM in this location to be at least 1,000 meters thicker than today. As part of the New Zealand Latitudinal Gradient Project along the Transantarctic, we collected samples for cosmogenic exposure dating at a) Lake Wellman area bordering the Hatherton Glacier, (b) Roadend Nunatak at the confluence of the Darwin and Hatherton glaciers and (c) Diamond Hill which is positioned at the intersection of the Ross Ice Shelf and Darwin Glacier outlet. While the technique of exposure dating is very successful in mid-latitude alpine glacier systems, it is more challenging in polar ice-sheet regions due to the prevalence of cold-based ice over-riding events and absence of outwash processes which removes glacially transported debris. Our glacial geomorphic survey from ice sheet contact edge (~850 masl) to mountain peak at 1600 masl together with a suite of 10Be and 26Al exposure ages, documents a pre-LGM ice volume at least 800 meters thicker than current ice levels which was established at least 2 million years ago. However a complex history of exposure and re-exposure of the ice free regions in this area is seen in accordance with advance and retreat of the ice sheets that feeds into the Darwin –Hatherton system. A cluster of mid-altitude boulders, located below a prominent moraine feature mapped previously as demarcating the LGM ice advance limits, have exposure ages ranging from 30 to 40 ka. Exposure ages for boulders just above the ice contact range from 1to 19 ka and allow an estimate of inheritance. Hence, we conclude that LGM ice volume was not as large as previously estimated and actually little different from what is observed today. These results raise rather serious questions about the implications of a reduced WAIS at the LGM, its effect on the development of the Ross Ice Shelf, and how the Antarctic ice sheets respond to global warming. European Geosciences Union
format Conference Object
author Fink, D
Storey, B
Hood, D
Joy, K
Shulmeister, J
author_facet Fink, D
Storey, B
Hood, D
Joy, K
Shulmeister, J
author_sort Fink, D
title Constraints on ice volume changes of the WAIS and Ross Ice Shelf since the LGM based on cosmogenic exposure ages in the Darwin-Hatherton glacial system of the Transantarctic Mountains.
title_short Constraints on ice volume changes of the WAIS and Ross Ice Shelf since the LGM based on cosmogenic exposure ages in the Darwin-Hatherton glacial system of the Transantarctic Mountains.
title_full Constraints on ice volume changes of the WAIS and Ross Ice Shelf since the LGM based on cosmogenic exposure ages in the Darwin-Hatherton glacial system of the Transantarctic Mountains.
title_fullStr Constraints on ice volume changes of the WAIS and Ross Ice Shelf since the LGM based on cosmogenic exposure ages in the Darwin-Hatherton glacial system of the Transantarctic Mountains.
title_full_unstemmed Constraints on ice volume changes of the WAIS and Ross Ice Shelf since the LGM based on cosmogenic exposure ages in the Darwin-Hatherton glacial system of the Transantarctic Mountains.
title_sort constraints on ice volume changes of the wais and ross ice shelf since the lgm based on cosmogenic exposure ages in the darwin-hatherton glacial system of the transantarctic mountains.
publisher Copernicus Publications
publishDate 2010
url http://apo.ansto.gov.au/dspace/handle/10238/2247
long_lat ENVELOPE(159.000,159.000,-79.883,-79.883)
ENVELOPE(159.083,159.083,-79.867,-79.867)
ENVELOPE(-60.750,-60.750,-65.983,-65.983)
ENVELOPE(62.583,62.583,-67.833,-67.833)
ENVELOPE(157.583,157.583,-79.917,-79.917)
ENVELOPE(-59.981,-59.981,-72.879,-72.879)
ENVELOPE(158.033,158.033,-79.800,-79.800)
ENVELOPE(-61.400,-61.400,-64.483,-64.483)
geographic Antarctic
Darwin Glacier
Diamond Hill
Framnes
Framnes Mountains
Hatherton Glacier
Mackintosh
New Zealand
Roadend Nunatak
Ross Ice Shelf
The Antarctic
Transantarctic Mountains
Wellman
West Antarctic Ice Sheet
geographic_facet Antarctic
Darwin Glacier
Diamond Hill
Framnes
Framnes Mountains
Hatherton Glacier
Mackintosh
New Zealand
Roadend Nunatak
Ross Ice Shelf
The Antarctic
Transantarctic Mountains
Wellman
West Antarctic Ice Sheet
genre Antarc*
Antarctic
Antarctica
Darwin Glacier
Hatherton Glacier
Ice Sheet
Ice Shelf
Ross Ice Shelf
genre_facet Antarc*
Antarctic
Antarctica
Darwin Glacier
Hatherton Glacier
Ice Sheet
Ice Shelf
Ross Ice Shelf
op_relation Fink, D., Storey, B., Hood, D., Joy, K., & Shulmeister, J. (2010). Constraints on ice volume changes of the WAIS and Ross Ice Shelf since the LGM based on cosmogenic exposure ages in the Darwin-Hatherton glacial system of the Transantarctic Mountains. 7th European Geosciences Union (EGU) General Assembly, 2nd – 7th May 2010. Vienna, Austria: Austria Center. In Geophysical Research Abstracts, 12, EGU2010-6551.
http://apo.ansto.gov.au/dspace/handle/10238/2247
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spelling ftansto:oai:apo-prod.ansto.gov.au:10238/2247 2023-05-15T13:36:16+02:00 Constraints on ice volume changes of the WAIS and Ross Ice Shelf since the LGM based on cosmogenic exposure ages in the Darwin-Hatherton glacial system of the Transantarctic Mountains. Fink, D Storey, B Hood, D Joy, K Shulmeister, J 2010-05-02 http://apo.ansto.gov.au/dspace/handle/10238/2247 en eng Copernicus Publications Fink, D., Storey, B., Hood, D., Joy, K., & Shulmeister, J. (2010). Constraints on ice volume changes of the WAIS and Ross Ice Shelf since the LGM based on cosmogenic exposure ages in the Darwin-Hatherton glacial system of the Transantarctic Mountains. 7th European Geosciences Union (EGU) General Assembly, 2nd – 7th May 2010. Vienna, Austria: Austria Center. In Geophysical Research Abstracts, 12, EGU2010-6551. http://apo.ansto.gov.au/dspace/handle/10238/2247 Ice Glaciers Antarctica Mountains Age estimation Quaternary period Conference Abstract 2010 ftansto 2020-09-07T22:28:35Z Quantitative assessment of the spatial and temporal scale of ice volume change of the West Antarctic ice sheet (WAIS) and Ross Ice Shelf since the last glacial maximum (LGM) ~20 ka is essential to accurately predict ice sheet response to current and future climate change. Although global sea level rose by approximately 120 metres since the LGM, the contribution of polar ice sheets is uncertain and the timing of any such contribution is controversial. Mackintosh et al (2007) suggest that sectors of the EAIS, similar to those studied at Framnes Mountains where the ice sheet slowly calves at coastal margins, have made marginal contributions to global sea-level rise between 13 and 7 ka. In contrast, Stone et al (2003) document continuing WAIS decay during the mid-late Holocene, raising the question of what was the response of the WAIS since LGM and into the Holocene. Terrestrial evidence is restricted to sparse coastal oasis and ice free mountains which archive limits of former ice advances. Mountain ranges flanking the Darwin-Hatherton glaciers exhibit well-defined moraines, weathering signatures, boulder rich plateaus and glacial tills, which preserve the evidence of advance and retreat of the ice sheet during previous glacial cycles. Previous studies suggest a WAIS at the LGM in this location to be at least 1,000 meters thicker than today. As part of the New Zealand Latitudinal Gradient Project along the Transantarctic, we collected samples for cosmogenic exposure dating at a) Lake Wellman area bordering the Hatherton Glacier, (b) Roadend Nunatak at the confluence of the Darwin and Hatherton glaciers and (c) Diamond Hill which is positioned at the intersection of the Ross Ice Shelf and Darwin Glacier outlet. While the technique of exposure dating is very successful in mid-latitude alpine glacier systems, it is more challenging in polar ice-sheet regions due to the prevalence of cold-based ice over-riding events and absence of outwash processes which removes glacially transported debris. Our glacial geomorphic survey from ice sheet contact edge (~850 masl) to mountain peak at 1600 masl together with a suite of 10Be and 26Al exposure ages, documents a pre-LGM ice volume at least 800 meters thicker than current ice levels which was established at least 2 million years ago. However a complex history of exposure and re-exposure of the ice free regions in this area is seen in accordance with advance and retreat of the ice sheets that feeds into the Darwin –Hatherton system. A cluster of mid-altitude boulders, located below a prominent moraine feature mapped previously as demarcating the LGM ice advance limits, have exposure ages ranging from 30 to 40 ka. Exposure ages for boulders just above the ice contact range from 1to 19 ka and allow an estimate of inheritance. Hence, we conclude that LGM ice volume was not as large as previously estimated and actually little different from what is observed today. These results raise rather serious questions about the implications of a reduced WAIS at the LGM, its effect on the development of the Ross Ice Shelf, and how the Antarctic ice sheets respond to global warming. European Geosciences Union Conference Object Antarc* Antarctic Antarctica Darwin Glacier Hatherton Glacier Ice Sheet Ice Shelf Ross Ice Shelf Australian Nuclear Science and Technology Organisation: ANSTO Publications Online Antarctic Darwin Glacier ENVELOPE(159.000,159.000,-79.883,-79.883) Diamond Hill ENVELOPE(159.083,159.083,-79.867,-79.867) Framnes ENVELOPE(-60.750,-60.750,-65.983,-65.983) Framnes Mountains ENVELOPE(62.583,62.583,-67.833,-67.833) Hatherton Glacier ENVELOPE(157.583,157.583,-79.917,-79.917) Mackintosh ENVELOPE(-59.981,-59.981,-72.879,-72.879) New Zealand Roadend Nunatak ENVELOPE(158.033,158.033,-79.800,-79.800) Ross Ice Shelf The Antarctic Transantarctic Mountains Wellman ENVELOPE(-61.400,-61.400,-64.483,-64.483) West Antarctic Ice Sheet

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