Investigating the Dynamics of Deglaciation in Coastal Areas of Southeast Greenland

Southeast (SE) Greenland has experienced large glaciological changes over the last two decades. Glacial retreat, acceleration, and thinning have resulted in substantial mass loss. However, despite its significance, relatively little is known about the glacial history of SE Greenland. Reconstructions...

Full description

Bibliographic Details
Main Authors: Syke, Laurence M., Hughes, Anna L.C., Andresen, Camilla S., Murray, Tavi, Hiemstra, John F., Rodés, Ángel
Format: Conference Object
Language:unknown
Published: 2016
Subjects:
Gerner Ø
Greenland
Ikertivaq
glacier
Ice Sheet
Sermilik
Online Access:http://eprints.gla.ac.uk/196813/
https://ui.adsabs.harvard.edu/abs/2016EGUGA.1816874D/abstract
id ftuglasgow:oai:eprints.gla.ac.uk:196813
record_format openpolar
spelling ftuglasgow:oai:eprints.gla.ac.uk:196813 2023-05-15T16:20:59+02:00 Investigating the Dynamics of Deglaciation in Coastal Areas of Southeast Greenland Syke, Laurence M. Hughes, Anna L.C. Andresen, Camilla S. Murray, Tavi Hiemstra, John F. Rodés, Ángel 2016-04-22 http://eprints.gla.ac.uk/196813/ https://ui.adsabs.harvard.edu/abs/2016EGUGA.1816874D/abstract unknown Syke, L. M., Hughes, A. L.C., Andresen, C. S., Murray, T., Hiemstra, J. F. and Rodés, Á. <http://eprints.gla.ac.uk/view/author/15683.html> (2016) Investigating the Dynamics of Deglaciation in Coastal Areas of Southeast Greenland. EGU General Assembly, Vienna, Austria, 17-22 Apr 2016. Conference or Workshop Item PeerReviewed 2016 ftuglasgow 2021-08-26T22:09:21Z Southeast (SE) Greenland has experienced large glaciological changes over the last two decades. Glacial retreat, acceleration, and thinning have resulted in substantial mass loss. However, despite its significance, relatively little is known about the glacial history of SE Greenland. Reconstructions of glacier behaviour provide valuable context for assessing the magnitude of present-day changes, they can also be used to better-understand the mechanisms that control glacier behaviour. We present 11 new cosmogenic exposure ages from previously uninvestigated coastal areas of SE Greenland. Paired erratic and bedrock samples from low-elevation locations were analysed for 10Be content. Samples were collected from central areas of Køge Bugt and Ikertivaq; consequently, these samples track the retreat of the major, marine terminating outlet glaciers here. Samples from Gerner Ø and Tugtilik were collected from locations away from major outlet glaciers; these samples track the deglaciation of 'passive' margins of the Greenland Ice Sheet (GrIS). Comparing the timing of deglaciation in these areas with different dynamic regimes permits investigation of the relative influence of ice dynamics on deglaciation. Results from 10Be analysis are complicated; understanding their significance requires careful interpretation and consideration of the individual sample settings. The timing of glacier retreat appears to have been largely dependent on the local physiographic setting and glaciological regime. The deglaciation of Køge Bugt occurred broadly contemporaneously with retreat in Sermilik Fjord, 100 km to the northeast. Fjord retreat in Køge Bugt probably occurred in response to climatic amelioration at the start of the Holocene (Hughes et al., 2012). The deglaciation of Ikertivaq occurred marginally later, but likely also in response to early-Holocene climatic warming. The minor difference in timing may be attributable to the specifc geometry of Ikertivaq. The deglaciation of passive areas appears to have occurred later than in the major fjord systems; this suggests that ice dynamic processes were a key driver of deglaciation in SE Greenland. References: Hughes, A. L. C.; Rainsley, E.; Murray, T.; Fogwill, C. J.; Schnabel, C., Xu, S., 2012. Rapid response of Helheim Glacier, southeast Greenland, to early Holocene climate warming. Geology 40, 427-430. Conference Object glacier Greenland Ice Sheet Sermilik University of Glasgow: Enlighten - Publications Gerner Ø ENVELOPE(-40.350,-40.350,64.317,64.317) Greenland Ikertivaq ENVELOPE(-39.667,-39.667,65.483,65.483)
institution Open Polar
collection University of Glasgow: Enlighten - Publications
op_collection_id ftuglasgow
language unknown
description Southeast (SE) Greenland has experienced large glaciological changes over the last two decades. Glacial retreat, acceleration, and thinning have resulted in substantial mass loss. However, despite its significance, relatively little is known about the glacial history of SE Greenland. Reconstructions of glacier behaviour provide valuable context for assessing the magnitude of present-day changes, they can also be used to better-understand the mechanisms that control glacier behaviour. We present 11 new cosmogenic exposure ages from previously uninvestigated coastal areas of SE Greenland. Paired erratic and bedrock samples from low-elevation locations were analysed for 10Be content. Samples were collected from central areas of Køge Bugt and Ikertivaq; consequently, these samples track the retreat of the major, marine terminating outlet glaciers here. Samples from Gerner Ø and Tugtilik were collected from locations away from major outlet glaciers; these samples track the deglaciation of 'passive' margins of the Greenland Ice Sheet (GrIS). Comparing the timing of deglaciation in these areas with different dynamic regimes permits investigation of the relative influence of ice dynamics on deglaciation. Results from 10Be analysis are complicated; understanding their significance requires careful interpretation and consideration of the individual sample settings. The timing of glacier retreat appears to have been largely dependent on the local physiographic setting and glaciological regime. The deglaciation of Køge Bugt occurred broadly contemporaneously with retreat in Sermilik Fjord, 100 km to the northeast. Fjord retreat in Køge Bugt probably occurred in response to climatic amelioration at the start of the Holocene (Hughes et al., 2012). The deglaciation of Ikertivaq occurred marginally later, but likely also in response to early-Holocene climatic warming. The minor difference in timing may be attributable to the specifc geometry of Ikertivaq. The deglaciation of passive areas appears to have occurred later than in the major fjord systems; this suggests that ice dynamic processes were a key driver of deglaciation in SE Greenland. References: Hughes, A. L. C.; Rainsley, E.; Murray, T.; Fogwill, C. J.; Schnabel, C., Xu, S., 2012. Rapid response of Helheim Glacier, southeast Greenland, to early Holocene climate warming. Geology 40, 427-430.
format Conference Object
author Syke, Laurence M.
Hughes, Anna L.C.
Andresen, Camilla S.
Murray, Tavi
Hiemstra, John F.
Rodés, Ángel
spellingShingle Syke, Laurence M.
Hughes, Anna L.C.
Andresen, Camilla S.
Murray, Tavi
Hiemstra, John F.
Rodés, Ángel
Investigating the Dynamics of Deglaciation in Coastal Areas of Southeast Greenland
author_facet Syke, Laurence M.
Hughes, Anna L.C.
Andresen, Camilla S.
Murray, Tavi
Hiemstra, John F.
Rodés, Ángel
author_sort Syke, Laurence M.
title Investigating the Dynamics of Deglaciation in Coastal Areas of Southeast Greenland
title_short Investigating the Dynamics of Deglaciation in Coastal Areas of Southeast Greenland
title_full Investigating the Dynamics of Deglaciation in Coastal Areas of Southeast Greenland
title_fullStr Investigating the Dynamics of Deglaciation in Coastal Areas of Southeast Greenland
title_full_unstemmed Investigating the Dynamics of Deglaciation in Coastal Areas of Southeast Greenland
title_sort investigating the dynamics of deglaciation in coastal areas of southeast greenland
publishDate 2016
url http://eprints.gla.ac.uk/196813/
https://ui.adsabs.harvard.edu/abs/2016EGUGA.1816874D/abstract
long_lat ENVELOPE(-40.350,-40.350,64.317,64.317)
ENVELOPE(-39.667,-39.667,65.483,65.483)
geographic Gerner Ø
Greenland
Ikertivaq
geographic_facet Gerner Ø
Greenland
Ikertivaq
genre glacier
Greenland
Ice Sheet
Sermilik
genre_facet glacier
Greenland
Ice Sheet
Sermilik
op_relation Syke, L. M., Hughes, A. L.C., Andresen, C. S., Murray, T., Hiemstra, J. F. and Rodés, Á. <http://eprints.gla.ac.uk/view/author/15683.html> (2016) Investigating the Dynamics of Deglaciation in Coastal Areas of Southeast Greenland. EGU General Assembly, Vienna, Austria, 17-22 Apr 2016.
_version_ 1766008998489751552

Similar Items