The evolution and dynamic behaviour of the Northern Uummannaq Ice Stream System, West Greenland

This thesis considers the evolution and dynamic behaviour of the northern Uummannaq Ice Stream System (UISS), a large ice stream which extended to the Greenland shelf edge during the Last Glacial Maximum (LGM). The Uummannaq region has been shown to be dominated by areas of selective linear erosion...

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Bibliographic Details
Main Author: LANE, TIMOTHY,PATRICK
Format: Thesis
Language:unknown
Published: 2013
Subjects:
Greenland
glaciology
ice stream
cosmogenic nuclide dating
Isfjord
Karrat Isfjord
Svartenhuk
Uummannaq
Online Access:http://etheses.dur.ac.uk/7724/
http://etheses.dur.ac.uk/7724/1/Final_Complete_Thesis.pdf
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spelling ftunidurhamethes:oai:etheses.dur.ac.uk:7724 2023-05-15T16:27:48+02:00 The evolution and dynamic behaviour of the Northern Uummannaq Ice Stream System, West Greenland LANE, TIMOTHY,PATRICK 2013 application/pdf http://etheses.dur.ac.uk/7724/ http://etheses.dur.ac.uk/7724/1/Final_Complete_Thesis.pdf unknown oai:etheses.dur.ac.uk:7724 http://etheses.dur.ac.uk/7724/1/Final_Complete_Thesis.pdf LANE, TIMOTHY,PATRICK (2013) The evolution and dynamic behaviour of the Northern Uummannaq Ice Stream System, West Greenland. Doctoral thesis, Durham University. http://etheses.dur.ac.uk/7724/ Greenland glaciology ice stream cosmogenic nuclide dating Thesis NonPeerReviewed 2013 ftunidurhamethes 2022-09-23T14:14:48Z This thesis considers the evolution and dynamic behaviour of the northern Uummannaq Ice Stream System (UISS), a large ice stream which extended to the Greenland shelf edge during the Last Glacial Maximum (LGM). The Uummannaq region has been shown to be dominated by areas of selective linear erosion (SLE) and areal scour. Over multiple glacial cycles, enhanced by favourable geology and uplift, SLE controlled the formation of a confluent fjord system which triggered the onset and development of the UISS. At the LGM, northern UISS ice thicknesses reached 1400-1968 m a.s.l., comparable to data from the southern UISS. However, in the north, thicknesses were not sufficient to overtop fjord confines, with ice flow remaining topographically controlled. The presence of thick, fast ice flowing ice in the onset zone suggests that subglacial conditions within the study area were characterised by intense basal sliding. The evolution of bedforms (roches moutonnées and whalebacks) was influenced by basal ice dynamics, but bedrock type, joints and bedding were also critical controls on bedform morphometry. Deglaciation following the LGM began on the outer shelf by 14.9 kyr, with increased air temperature, rising relative sea-level and bathymetric over-deepening driving the UISS to the outer edge of coastal fjords by 11.4-11.0 kyr. Geochronological data demonstrate that the retreat rate of the northern and southern UISS became highly asynchronous during the early-Holocene. In the south, topographic constrictions stabilised the ice from 11.0-9.3 kyr, before it retreated beyond its present ice margin at 8.7 kyr. Ice in the north became pinned at the mouth of Rink-Karrat Isfjord between 11.6-6.9 kyr, remaining stable through the Holocene Thermal Maximum, demonstrating the ability of topography to override climate and sea-level drivers. Geomorphological and sedimentological evidence has demonstrated that the Svartenhuk Peninsula in the northern Uummannaq region, previously cited as an LGM ice-free enclave, was overrun by ice during ... Thesis Greenland Uummannaq Durham University: Durham e-Theses Greenland Isfjord ENVELOPE(-26.917,-26.917,73.333,73.333) Karrat Isfjord ENVELOPE(-52.583,-52.583,71.583,71.583) Svartenhuk ENVELOPE(-55.861,-55.861,71.687,71.687)
institution Open Polar
collection Durham University: Durham e-Theses
op_collection_id ftunidurhamethes
language unknown
topic Greenland
glaciology
ice stream
cosmogenic nuclide dating
spellingShingle Greenland
glaciology
ice stream
cosmogenic nuclide dating
LANE, TIMOTHY,PATRICK
The evolution and dynamic behaviour of the Northern Uummannaq Ice Stream System, West Greenland
topic_facet Greenland
glaciology
ice stream
cosmogenic nuclide dating
description This thesis considers the evolution and dynamic behaviour of the northern Uummannaq Ice Stream System (UISS), a large ice stream which extended to the Greenland shelf edge during the Last Glacial Maximum (LGM). The Uummannaq region has been shown to be dominated by areas of selective linear erosion (SLE) and areal scour. Over multiple glacial cycles, enhanced by favourable geology and uplift, SLE controlled the formation of a confluent fjord system which triggered the onset and development of the UISS. At the LGM, northern UISS ice thicknesses reached 1400-1968 m a.s.l., comparable to data from the southern UISS. However, in the north, thicknesses were not sufficient to overtop fjord confines, with ice flow remaining topographically controlled. The presence of thick, fast ice flowing ice in the onset zone suggests that subglacial conditions within the study area were characterised by intense basal sliding. The evolution of bedforms (roches moutonnées and whalebacks) was influenced by basal ice dynamics, but bedrock type, joints and bedding were also critical controls on bedform morphometry. Deglaciation following the LGM began on the outer shelf by 14.9 kyr, with increased air temperature, rising relative sea-level and bathymetric over-deepening driving the UISS to the outer edge of coastal fjords by 11.4-11.0 kyr. Geochronological data demonstrate that the retreat rate of the northern and southern UISS became highly asynchronous during the early-Holocene. In the south, topographic constrictions stabilised the ice from 11.0-9.3 kyr, before it retreated beyond its present ice margin at 8.7 kyr. Ice in the north became pinned at the mouth of Rink-Karrat Isfjord between 11.6-6.9 kyr, remaining stable through the Holocene Thermal Maximum, demonstrating the ability of topography to override climate and sea-level drivers. Geomorphological and sedimentological evidence has demonstrated that the Svartenhuk Peninsula in the northern Uummannaq region, previously cited as an LGM ice-free enclave, was overrun by ice during ...
format Thesis
author LANE, TIMOTHY,PATRICK
author_facet LANE, TIMOTHY,PATRICK
author_sort LANE, TIMOTHY,PATRICK
title The evolution and dynamic behaviour of the Northern Uummannaq Ice Stream System, West Greenland
title_short The evolution and dynamic behaviour of the Northern Uummannaq Ice Stream System, West Greenland
title_full The evolution and dynamic behaviour of the Northern Uummannaq Ice Stream System, West Greenland
title_fullStr The evolution and dynamic behaviour of the Northern Uummannaq Ice Stream System, West Greenland
title_full_unstemmed The evolution and dynamic behaviour of the Northern Uummannaq Ice Stream System, West Greenland
title_sort evolution and dynamic behaviour of the northern uummannaq ice stream system, west greenland
publishDate 2013
url http://etheses.dur.ac.uk/7724/
http://etheses.dur.ac.uk/7724/1/Final_Complete_Thesis.pdf
long_lat ENVELOPE(-26.917,-26.917,73.333,73.333)
ENVELOPE(-52.583,-52.583,71.583,71.583)
ENVELOPE(-55.861,-55.861,71.687,71.687)
geographic Greenland
Isfjord
Karrat Isfjord
Svartenhuk
geographic_facet Greenland
Isfjord
Karrat Isfjord
Svartenhuk
genre Greenland
Uummannaq
genre_facet Greenland
Uummannaq
op_relation oai:etheses.dur.ac.uk:7724
http://etheses.dur.ac.uk/7724/1/Final_Complete_Thesis.pdf
LANE, TIMOTHY,PATRICK (2013) The evolution and dynamic behaviour of the Northern Uummannaq Ice Stream System, West Greenland. Doctoral thesis, Durham University.
http://etheses.dur.ac.uk/7724/
_version_ 1766017317210161152

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