Sub-diurnal measurements of alpine glacier dynamics

The recognition that ice dynamics critically influence the response of glaciers to climate change has led to increased efforts to improve our understanding of the fundamental controls on glacier motion. At most temperate glaciers, basal motion contributes the greatest component of motion (typically...

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Main Authors: Bingham, RG, Chandler, DM, Hubbard, BP, Nienow, PW
Format: Article in Journal/Newspaper
Language:English
Published: 2004
Subjects:
Arctic
Climate change
Online Access:https://hdl.handle.net/1983/2ac9efce-ffc2-4f0d-9618-a8d00eafb968
https://research-information.bris.ac.uk/en/publications/2ac9efce-ffc2-4f0d-9618-a8d00eafb968
id ftubristolcris:oai:research-information.bris.ac.uk:publications/2ac9efce-ffc2-4f0d-9618-a8d00eafb968
record_format openpolar
spelling ftubristolcris:oai:research-information.bris.ac.uk:publications/2ac9efce-ffc2-4f0d-9618-a8d00eafb968 2023-07-30T04:02:08+02:00 Sub-diurnal measurements of alpine glacier dynamics Bingham, RG Chandler, DM Hubbard, BP Nienow, PW 2004 https://hdl.handle.net/1983/2ac9efce-ffc2-4f0d-9618-a8d00eafb968 https://research-information.bris.ac.uk/en/publications/2ac9efce-ffc2-4f0d-9618-a8d00eafb968 eng eng info:eu-repo/semantics/restrictedAccess Bingham , RG , Chandler , DM , Hubbard , BP & Nienow , PW 2004 , Sub-diurnal measurements of alpine glacier dynamics . in European Geosciences Union, 1st General Assembly, Nice, France . contributionToPeriodical 2004 ftubristolcris 2023-07-20T22:29:07Z The recognition that ice dynamics critically influence the response of glaciers to climate change has led to increased efforts to improve our understanding of the fundamental controls on glacier motion. At most temperate glaciers, basal motion contributes the greatest component of motion (typically 60-80%) to overall flow, and there is now growing evidence that basal motion is significant in many of the small to medium-sized ice masses which characterise the High Arctic. A predominant influence on basal motion consists of surface-driven hydrological impacts on basal drag, in particular subglacial water pressures, which commonly vary significantly over sub-diurnal timescales. However, measurements of basal and surface motion over sub-diurnal timescales are rare, so it is unknown whether basal motion varies significantly over such timescales nor whether sub-diurnal variations in basal motion induce similar variations in glacier surface motion. We report here on sub-diurnal measurements of surface and basal motion made over six diurnal cycles at the temperate Glacier de Ferpecle, Valais, Switzerland, during August 2003. The positions of 11 marker stakes drilled into the ice surface across the lower ablation zone were monitored every two hours using standard total station surveying methods, using LEDs attached to the prism targets to locate the stakes at night. The resultant data were processed to produce surface-velocity data over the lower ablation zone with two-hourly resolution. Basal motion was simultaneously monitored using potentiometers installed in two locations in a basal cavity network beneath the lower glacier. The results reveal that surface velocities throughout the lower ablation zone were greatest (average ~ 13 cm day-1) in the late morning (10:00 - 12:00) and slowest (~ 4 cm day-1) in the late evening (22:00 - 00:00), and showed a clear diurnal oscillation. These patterns indicate that meltwater entering moulins during daylight hours diurnally reduced basal drag and the diurnal oscillation in basal ... Article in Journal/Newspaper Arctic Climate change University of Bristol: Bristol Research Arctic
institution Open Polar
collection University of Bristol: Bristol Research
op_collection_id ftubristolcris
language English
description The recognition that ice dynamics critically influence the response of glaciers to climate change has led to increased efforts to improve our understanding of the fundamental controls on glacier motion. At most temperate glaciers, basal motion contributes the greatest component of motion (typically 60-80%) to overall flow, and there is now growing evidence that basal motion is significant in many of the small to medium-sized ice masses which characterise the High Arctic. A predominant influence on basal motion consists of surface-driven hydrological impacts on basal drag, in particular subglacial water pressures, which commonly vary significantly over sub-diurnal timescales. However, measurements of basal and surface motion over sub-diurnal timescales are rare, so it is unknown whether basal motion varies significantly over such timescales nor whether sub-diurnal variations in basal motion induce similar variations in glacier surface motion. We report here on sub-diurnal measurements of surface and basal motion made over six diurnal cycles at the temperate Glacier de Ferpecle, Valais, Switzerland, during August 2003. The positions of 11 marker stakes drilled into the ice surface across the lower ablation zone were monitored every two hours using standard total station surveying methods, using LEDs attached to the prism targets to locate the stakes at night. The resultant data were processed to produce surface-velocity data over the lower ablation zone with two-hourly resolution. Basal motion was simultaneously monitored using potentiometers installed in two locations in a basal cavity network beneath the lower glacier. The results reveal that surface velocities throughout the lower ablation zone were greatest (average ~ 13 cm day-1) in the late morning (10:00 - 12:00) and slowest (~ 4 cm day-1) in the late evening (22:00 - 00:00), and showed a clear diurnal oscillation. These patterns indicate that meltwater entering moulins during daylight hours diurnally reduced basal drag and the diurnal oscillation in basal ...
format Article in Journal/Newspaper
author Bingham, RG
Chandler, DM
Hubbard, BP
Nienow, PW
spellingShingle Bingham, RG
Chandler, DM
Hubbard, BP
Nienow, PW
Sub-diurnal measurements of alpine glacier dynamics
author_facet Bingham, RG
Chandler, DM
Hubbard, BP
Nienow, PW
author_sort Bingham, RG
title Sub-diurnal measurements of alpine glacier dynamics
title_short Sub-diurnal measurements of alpine glacier dynamics
title_full Sub-diurnal measurements of alpine glacier dynamics
title_fullStr Sub-diurnal measurements of alpine glacier dynamics
title_full_unstemmed Sub-diurnal measurements of alpine glacier dynamics
title_sort sub-diurnal measurements of alpine glacier dynamics
publishDate 2004
url https://hdl.handle.net/1983/2ac9efce-ffc2-4f0d-9618-a8d00eafb968
https://research-information.bris.ac.uk/en/publications/2ac9efce-ffc2-4f0d-9618-a8d00eafb968
geographic Arctic
geographic_facet Arctic
genre Arctic
Climate change
genre_facet Arctic
Climate change
op_source Bingham , RG , Chandler , DM , Hubbard , BP & Nienow , PW 2004 , Sub-diurnal measurements of alpine glacier dynamics . in European Geosciences Union, 1st General Assembly, Nice, France .
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1772812861376036864

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