Intra-annual and intra-seasonal flow dynamics of a High Arctic polythermal valley glacier

Measurements of surface dynamics on polythermal John Evans Glacier, Nunavut, Canada over two winter periods and every 7-10 days throughout two melt-seasons (June-July 2000, 2001) provide new insight into spatio-temporal patterns of High Arctic glacier dynamics. In the lower ablation zone mean annual...

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Main Authors: Bingham, RG, Nienow, PW, Sharp, MJ
Format: Article in Journal/Newspaper
Language:English
Published: 2002
Subjects:
Arctic
Canada
John Evans Glacier
Nunavut
glacier*
Online Access:https://hdl.handle.net/1983/b016da4e-e15f-4824-93df-f7ee45911514
https://research-information.bris.ac.uk/en/publications/b016da4e-e15f-4824-93df-f7ee45911514
id ftubristolcris:oai:research-information.bris.ac.uk:publications/b016da4e-e15f-4824-93df-f7ee45911514
record_format openpolar
spelling ftubristolcris:oai:research-information.bris.ac.uk:publications/b016da4e-e15f-4824-93df-f7ee45911514 2023-07-30T03:59:48+02:00 Intra-annual and intra-seasonal flow dynamics of a High Arctic polythermal valley glacier Bingham, RG Nienow, PW Sharp, MJ 2002 https://hdl.handle.net/1983/b016da4e-e15f-4824-93df-f7ee45911514 https://research-information.bris.ac.uk/en/publications/b016da4e-e15f-4824-93df-f7ee45911514 eng eng info:eu-repo/semantics/restrictedAccess Bingham , RG , Nienow , PW & Sharp , MJ 2002 , Intra-annual and intra-seasonal flow dynamics of a High Arctic polythermal valley glacier . in Symposium on Physical and Mechanical Processes in Ice in Relation to Glacier and Ice-Sheet Modelling, Chamonix-Mont-Blanc, France . contributionToPeriodical 2002 ftubristolcris 2023-07-20T22:29:07Z Measurements of surface dynamics on polythermal John Evans Glacier, Nunavut, Canada over two winter periods and every 7-10 days throughout two melt-seasons (June-July 2000, 2001) provide new insight into spatio-temporal patterns of High Arctic glacier dynamics. In the lower ablation zone mean annual surface velocities range from 10-21 m a-1 but peak velocities up to 50 % higher are attained during late-June/early-July. In the upper ablation zone and lower accumulation zone mean annual surface velocities typically range from 10-18 m a-1 and peak velocities up to 40 % higher occur during late July. In the upper accumulation zone, mean annual surface velocities range from 2-9 m a-1 , and motion in mid-late July exceeds this by up to 10 %. Rapid drainage of ponded supraglacial water in the upper ablation zone to an initially distributed subglacial drainage system in mid-June may force excess surface motion in the warm-based lower glacier. The data indicate that the duration of the velocity response may be related to the rate of channelisation of the basal drainage, and the velocity response may be transmitted upglacier by longitudinal coupling. An increase in surface velocities in the middle glacier in late July occurs in conjunction with the opening of two further moulins in the accumulation zone. Measurements of surface dynamics on polythermal John Evans Glacier, Nunavut, Canada over two winter periods and every 7-10 days throughout two melt-seasons (June-July 2000, 2001) provide new insight into spatio-temporal patterns of High Arctic glacier dynamics. In the lower ablation zone mean annual surface velocities range from 10-21 m a-1 but peak velocities up to 50 % higher are attained during late-June/early-July. In the upper ablation zone and lower accumulation zone mean annual surface velocities typically range from 10-18 m a-1 and peak velocities up to 40 % higher occur during late July. In the upper accumulation zone, mean annual surface velocities range from 2-9 m a-1 , and motion in mid-late July exceeds ... Article in Journal/Newspaper Arctic Arctic glacier* Nunavut University of Bristol: Bristol Research Arctic Canada John Evans Glacier ENVELOPE(-74.079,-74.079,79.646,79.646) Nunavut
institution Open Polar
collection University of Bristol: Bristol Research
op_collection_id ftubristolcris
language English
description Measurements of surface dynamics on polythermal John Evans Glacier, Nunavut, Canada over two winter periods and every 7-10 days throughout two melt-seasons (June-July 2000, 2001) provide new insight into spatio-temporal patterns of High Arctic glacier dynamics. In the lower ablation zone mean annual surface velocities range from 10-21 m a-1 but peak velocities up to 50 % higher are attained during late-June/early-July. In the upper ablation zone and lower accumulation zone mean annual surface velocities typically range from 10-18 m a-1 and peak velocities up to 40 % higher occur during late July. In the upper accumulation zone, mean annual surface velocities range from 2-9 m a-1 , and motion in mid-late July exceeds this by up to 10 %. Rapid drainage of ponded supraglacial water in the upper ablation zone to an initially distributed subglacial drainage system in mid-June may force excess surface motion in the warm-based lower glacier. The data indicate that the duration of the velocity response may be related to the rate of channelisation of the basal drainage, and the velocity response may be transmitted upglacier by longitudinal coupling. An increase in surface velocities in the middle glacier in late July occurs in conjunction with the opening of two further moulins in the accumulation zone. Measurements of surface dynamics on polythermal John Evans Glacier, Nunavut, Canada over two winter periods and every 7-10 days throughout two melt-seasons (June-July 2000, 2001) provide new insight into spatio-temporal patterns of High Arctic glacier dynamics. In the lower ablation zone mean annual surface velocities range from 10-21 m a-1 but peak velocities up to 50 % higher are attained during late-June/early-July. In the upper ablation zone and lower accumulation zone mean annual surface velocities typically range from 10-18 m a-1 and peak velocities up to 40 % higher occur during late July. In the upper accumulation zone, mean annual surface velocities range from 2-9 m a-1 , and motion in mid-late July exceeds ...
format Article in Journal/Newspaper
author Bingham, RG
Nienow, PW
Sharp, MJ
spellingShingle Bingham, RG
Nienow, PW
Sharp, MJ
Intra-annual and intra-seasonal flow dynamics of a High Arctic polythermal valley glacier
author_facet Bingham, RG
Nienow, PW
Sharp, MJ
author_sort Bingham, RG
title Intra-annual and intra-seasonal flow dynamics of a High Arctic polythermal valley glacier
title_short Intra-annual and intra-seasonal flow dynamics of a High Arctic polythermal valley glacier
title_full Intra-annual and intra-seasonal flow dynamics of a High Arctic polythermal valley glacier
title_fullStr Intra-annual and intra-seasonal flow dynamics of a High Arctic polythermal valley glacier
title_full_unstemmed Intra-annual and intra-seasonal flow dynamics of a High Arctic polythermal valley glacier
title_sort intra-annual and intra-seasonal flow dynamics of a high arctic polythermal valley glacier
publishDate 2002
url https://hdl.handle.net/1983/b016da4e-e15f-4824-93df-f7ee45911514
https://research-information.bris.ac.uk/en/publications/b016da4e-e15f-4824-93df-f7ee45911514
long_lat ENVELOPE(-74.079,-74.079,79.646,79.646)
geographic Arctic
Canada
John Evans Glacier
Nunavut
geographic_facet Arctic
Canada
John Evans Glacier
Nunavut
genre Arctic
Arctic
glacier*
Nunavut
genre_facet Arctic
Arctic
glacier*
Nunavut
op_source Bingham , RG , Nienow , PW & Sharp , MJ 2002 , Intra-annual and intra-seasonal flow dynamics of a High Arctic polythermal valley glacier . in Symposium on Physical and Mechanical Processes in Ice in Relation to Glacier and Ice-Sheet Modelling, Chamonix-Mont-Blanc, France .
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1772810573148323840

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