Holocene evolution of the western Greenland Ice Sheet: Assessing geophysical ice-sheet models with geological reconstructions of ice-margin change

Geophysical ice-sheet models are used to predict future ice-sheet dimensions and, in turn, these projections help estimate the magnitude of eustatic sea-level rise. Before models can confidently predict ice-sheet behavior, they must be validated by being able to duplicate the geological record of ic...

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Main Authors:	Young, Nicolas E., Briner, Jason P.
Format:	Article in Journal/Newspaper
Language:	English
Published:	Elsevier 2015
Subjects:	Ice sheets > Measurement Paleoclimatology Ice sheets > Mathematical models Climatic changes Geophysics Geomorphology Geology Greenland Kangerlussuaq Isfjord Melville Bugt Jakobshavn Isfjord Ice Sheet Jakobshavn Melville bugt Narsarsuaq
Online Access:	https://doi.org/10.7916/D80P0ZDW

id	ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/D80P0ZDW
record_format	openpolar
spelling	ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/D80P0ZDW 2023-05-15T16:25:53+02:00 Holocene evolution of the western Greenland Ice Sheet: Assessing geophysical ice-sheet models with geological reconstructions of ice-margin change Young, Nicolas E. Briner, Jason P. 2015 https://doi.org/10.7916/D80P0ZDW English eng Elsevier https://doi.org/10.7916/D80P0ZDW Ice sheets--Measurement Paleoclimatology Ice sheets--Mathematical models Climatic changes Geophysics Geomorphology Geology Articles 2015 ftcolumbiauniv https://doi.org/10.7916/D80P0ZDW 2019-04-04T08:13:19Z Geophysical ice-sheet models are used to predict future ice-sheet dimensions and, in turn, these projections help estimate the magnitude of eustatic sea-level rise. Before models can confidently predict ice-sheet behavior, they must be validated by being able to duplicate the geological record of ice-sheet change. Here, we review geological records of Greenland Ice Sheet (GrIS) change, with emphasis on the warmer-than-present middle Holocene, and compare these records to published studies that numerically simulate GrIS behavior through the Holocene. Geological records are concentrated in West and Southwest Greenland, which are also the regions where the GrIS margin likely experienced the greatest distance of inland retreat during the middle Holocene. Several records spanning from Melville Bugt to Jakobshavn Isfjord in western Greenland indicate the GrIS achieved its minimum extent between ~5 and 3 ka, and farther south in the Kangerlussuaq region, new data presented here indicate the ice margin reached its minimum extent between ~4.2 and 1.8 ka. In the Narsarsuaq region in southern Greenland, the GrIS likely achieved its minimum configuration between ~7 and 4 ka. We highlight key similarities and discrepancies between these reconstructions and model results, and finally, we suggest that despite some degree of inland retreat, the West and Southwest GrIS margin remained relatively stable and close to its current position through the Holocene thermal maximum. Article in Journal/Newspaper Greenland Ice Sheet Jakobshavn Kangerlussuaq Melville bugt Narsarsuaq Columbia University: Academic Commons Greenland Kangerlussuaq ENVELOPE(-55.633,-55.633,72.633,72.633) Isfjord ENVELOPE(-26.917,-26.917,73.333,73.333) Melville Bugt ENVELOPE(-61.000,-61.000,75.750,75.750) Jakobshavn Isfjord ENVELOPE(-50.500,-50.500,69.167,69.167)
institution	Open Polar
collection	Columbia University: Academic Commons
op_collection_id	ftcolumbiauniv
language	English
topic	Ice sheets--Measurement Paleoclimatology Ice sheets--Mathematical models Climatic changes Geophysics Geomorphology Geology
spellingShingle	Ice sheets--Measurement Paleoclimatology Ice sheets--Mathematical models Climatic changes Geophysics Geomorphology Geology Young, Nicolas E. Briner, Jason P. Holocene evolution of the western Greenland Ice Sheet: Assessing geophysical ice-sheet models with geological reconstructions of ice-margin change
topic_facet	Ice sheets--Measurement Paleoclimatology Ice sheets--Mathematical models Climatic changes Geophysics Geomorphology Geology
description	Geophysical ice-sheet models are used to predict future ice-sheet dimensions and, in turn, these projections help estimate the magnitude of eustatic sea-level rise. Before models can confidently predict ice-sheet behavior, they must be validated by being able to duplicate the geological record of ice-sheet change. Here, we review geological records of Greenland Ice Sheet (GrIS) change, with emphasis on the warmer-than-present middle Holocene, and compare these records to published studies that numerically simulate GrIS behavior through the Holocene. Geological records are concentrated in West and Southwest Greenland, which are also the regions where the GrIS margin likely experienced the greatest distance of inland retreat during the middle Holocene. Several records spanning from Melville Bugt to Jakobshavn Isfjord in western Greenland indicate the GrIS achieved its minimum extent between ~5 and 3 ka, and farther south in the Kangerlussuaq region, new data presented here indicate the ice margin reached its minimum extent between ~4.2 and 1.8 ka. In the Narsarsuaq region in southern Greenland, the GrIS likely achieved its minimum configuration between ~7 and 4 ka. We highlight key similarities and discrepancies between these reconstructions and model results, and finally, we suggest that despite some degree of inland retreat, the West and Southwest GrIS margin remained relatively stable and close to its current position through the Holocene thermal maximum.
format	Article in Journal/Newspaper
author	Young, Nicolas E. Briner, Jason P.
author_facet	Young, Nicolas E. Briner, Jason P.
author_sort	Young, Nicolas E.
title	Holocene evolution of the western Greenland Ice Sheet: Assessing geophysical ice-sheet models with geological reconstructions of ice-margin change
title_short	Holocene evolution of the western Greenland Ice Sheet: Assessing geophysical ice-sheet models with geological reconstructions of ice-margin change
title_full	Holocene evolution of the western Greenland Ice Sheet: Assessing geophysical ice-sheet models with geological reconstructions of ice-margin change
title_fullStr	Holocene evolution of the western Greenland Ice Sheet: Assessing geophysical ice-sheet models with geological reconstructions of ice-margin change
title_full_unstemmed	Holocene evolution of the western Greenland Ice Sheet: Assessing geophysical ice-sheet models with geological reconstructions of ice-margin change
title_sort	holocene evolution of the western greenland ice sheet: assessing geophysical ice-sheet models with geological reconstructions of ice-margin change
publisher	Elsevier
publishDate	2015
url	https://doi.org/10.7916/D80P0ZDW
long_lat	ENVELOPE(-55.633,-55.633,72.633,72.633) ENVELOPE(-26.917,-26.917,73.333,73.333) ENVELOPE(-61.000,-61.000,75.750,75.750) ENVELOPE(-50.500,-50.500,69.167,69.167)
geographic	Greenland Kangerlussuaq Isfjord Melville Bugt Jakobshavn Isfjord
geographic_facet	Greenland Kangerlussuaq Isfjord Melville Bugt Jakobshavn Isfjord
genre	Greenland Ice Sheet Jakobshavn Kangerlussuaq Melville bugt Narsarsuaq
genre_facet	Greenland Ice Sheet Jakobshavn Kangerlussuaq Melville bugt Narsarsuaq
op_relation	https://doi.org/10.7916/D80P0ZDW
op_doi	https://doi.org/10.7916/D80P0ZDW
_version_	1766014724163502080

Holocene evolution of the western Greenland Ice Sheet: Assessing geophysical ice-sheet models with geological reconstructions of ice-margin change

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