Englacial drainage systems formed by hydrologically driven crevasse propagation

Recent work has shown that surface-to-bed drainage systems re-form annually on parts of the Greenland ice sheet and some High Arctic glaciers, leading to speed-up events soon after the onset of summer melt. Surface observations and geophysical data indicate that such systems form by hydrologically d...

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Main Authors: Benn, Douglas, Gulley, Jason, Luckman, Adrian, Adamek, Artur, Glowacki, Piotr S.
Format: Article in Journal/Newspaper
Language:English
Published: 2009
Subjects:
GREENLAND ICE-SHEET
TERM VELOCITY VARIATIONS
FREEZE-ON MECHANISM
RICH BASAL ICE
POLYTHERMAL GLACIERS
TEMPERATE GLACIERS
NEPAL HIMALAYA
ABLATION ZONE
SURFACE MELT
WATER-FLOW
Arctic
Greenland
Hansbreen
Svalbard
glacier
glaciers
Ice Sheet
Journal of Glaciology
Alaska
Online Access:https://risweb.st-andrews.ac.uk/portal/en/researchoutput/englacial-drainage-systems-formed-by-hydrologically-driven-crevasse-propagation(72a3c37b-8ff6-42ae-a521-ac864f85ebe3).html
id ftunstandrewcris:oai:risweb.st-andrews.ac.uk:publications/72a3c37b-8ff6-42ae-a521-ac864f85ebe3
record_format openpolar
spelling ftunstandrewcris:oai:risweb.st-andrews.ac.uk:publications/72a3c37b-8ff6-42ae-a521-ac864f85ebe3 2023-05-15T15:08:36+02:00 Englacial drainage systems formed by hydrologically driven crevasse propagation Benn, Douglas Gulley, Jason Luckman, Adrian Adamek, Artur Glowacki, Piotr S. 2009 https://risweb.st-andrews.ac.uk/portal/en/researchoutput/englacial-drainage-systems-formed-by-hydrologically-driven-crevasse-propagation(72a3c37b-8ff6-42ae-a521-ac864f85ebe3).html eng eng info:eu-repo/semantics/restrictedAccess Benn , D , Gulley , J , Luckman , A , Adamek , A & Glowacki , P S 2009 , ' Englacial drainage systems formed by hydrologically driven crevasse propagation ' , Journal of Glaciology , vol. 55 , no. 191 , pp. 513-523 . GREENLAND ICE-SHEET TERM VELOCITY VARIATIONS FREEZE-ON MECHANISM RICH BASAL ICE POLYTHERMAL GLACIERS TEMPERATE GLACIERS NEPAL HIMALAYA ABLATION ZONE SURFACE MELT WATER-FLOW article 2009 ftunstandrewcris 2022-10-13T15:25:30Z Recent work has shown that surface-to-bed drainage systems re-form annually on parts of the Greenland ice sheet and some High Arctic glaciers, leading to speed-up events soon after the onset of summer melt. Surface observations and geophysical data indicate that such systems form by hydrologically driven fracture propagation (herein referred to as 'hydrofracturing'), although little is known about their characteristics. Using speleological techniques, we have explored and surveyed englacial drainage systems formed by hydrofracturing in glaciers in Svalbard, Nepal and Alaska. In Hansbreen, Svalbard, vertical shafts were followed through similar to 60 m of cold ice and similar to 10 m of temperate basal ice to a subglacial conduit. Deep hydrofracturing occurred at this site due to a combination of extensional ice flow and abundant surface meltwater at a glacier confluence. The englacial drainage systems in Khumbu Glacier, Nepal, and Matanuska Glacier, Alaska, USA, formed in areas of longitudinal compression and transverse extension and consist of vertical slots that plunge down-glacier at angles of 55 degrees or less. The occurrence of englacial drainages initiated by hydrofracturing in diverse glaciological regimes suggests that it is a very widespread process, and that surface-to-bed drainage can occur wherever high meltwater supply coincides with ice subjected to sufficiently large tensile stresses. Article in Journal/Newspaper Arctic glacier glacier glacier glaciers Greenland Ice Sheet Journal of Glaciology Svalbard Alaska University of St Andrews: Research Portal Arctic Greenland Hansbreen ENVELOPE(15.650,15.650,77.075,77.075) Svalbard
institution Open Polar
collection University of St Andrews: Research Portal
op_collection_id ftunstandrewcris
language English
topic GREENLAND ICE-SHEET
TERM VELOCITY VARIATIONS
FREEZE-ON MECHANISM
RICH BASAL ICE
POLYTHERMAL GLACIERS
TEMPERATE GLACIERS
NEPAL HIMALAYA
ABLATION ZONE
SURFACE MELT
WATER-FLOW
spellingShingle GREENLAND ICE-SHEET
TERM VELOCITY VARIATIONS
FREEZE-ON MECHANISM
RICH BASAL ICE
POLYTHERMAL GLACIERS
TEMPERATE GLACIERS
NEPAL HIMALAYA
ABLATION ZONE
SURFACE MELT
WATER-FLOW
Benn, Douglas
Gulley, Jason
Luckman, Adrian
Adamek, Artur
Glowacki, Piotr S.
Englacial drainage systems formed by hydrologically driven crevasse propagation
topic_facet GREENLAND ICE-SHEET
TERM VELOCITY VARIATIONS
FREEZE-ON MECHANISM
RICH BASAL ICE
POLYTHERMAL GLACIERS
TEMPERATE GLACIERS
NEPAL HIMALAYA
ABLATION ZONE
SURFACE MELT
WATER-FLOW
description Recent work has shown that surface-to-bed drainage systems re-form annually on parts of the Greenland ice sheet and some High Arctic glaciers, leading to speed-up events soon after the onset of summer melt. Surface observations and geophysical data indicate that such systems form by hydrologically driven fracture propagation (herein referred to as 'hydrofracturing'), although little is known about their characteristics. Using speleological techniques, we have explored and surveyed englacial drainage systems formed by hydrofracturing in glaciers in Svalbard, Nepal and Alaska. In Hansbreen, Svalbard, vertical shafts were followed through similar to 60 m of cold ice and similar to 10 m of temperate basal ice to a subglacial conduit. Deep hydrofracturing occurred at this site due to a combination of extensional ice flow and abundant surface meltwater at a glacier confluence. The englacial drainage systems in Khumbu Glacier, Nepal, and Matanuska Glacier, Alaska, USA, formed in areas of longitudinal compression and transverse extension and consist of vertical slots that plunge down-glacier at angles of 55 degrees or less. The occurrence of englacial drainages initiated by hydrofracturing in diverse glaciological regimes suggests that it is a very widespread process, and that surface-to-bed drainage can occur wherever high meltwater supply coincides with ice subjected to sufficiently large tensile stresses.
format Article in Journal/Newspaper
author Benn, Douglas
Gulley, Jason
Luckman, Adrian
Adamek, Artur
Glowacki, Piotr S.
author_facet Benn, Douglas
Gulley, Jason
Luckman, Adrian
Adamek, Artur
Glowacki, Piotr S.
author_sort Benn, Douglas
title Englacial drainage systems formed by hydrologically driven crevasse propagation
title_short Englacial drainage systems formed by hydrologically driven crevasse propagation
title_full Englacial drainage systems formed by hydrologically driven crevasse propagation
title_fullStr Englacial drainage systems formed by hydrologically driven crevasse propagation
title_full_unstemmed Englacial drainage systems formed by hydrologically driven crevasse propagation
title_sort englacial drainage systems formed by hydrologically driven crevasse propagation
publishDate 2009
url https://risweb.st-andrews.ac.uk/portal/en/researchoutput/englacial-drainage-systems-formed-by-hydrologically-driven-crevasse-propagation(72a3c37b-8ff6-42ae-a521-ac864f85ebe3).html
long_lat ENVELOPE(15.650,15.650,77.075,77.075)
geographic Arctic
Greenland
Hansbreen
Svalbard
geographic_facet Arctic
Greenland
Hansbreen
Svalbard
genre Arctic
glacier
glacier
glacier
glaciers
Greenland
Ice Sheet
Journal of Glaciology
Svalbard
Alaska
genre_facet Arctic
glacier
glacier
glacier
glaciers
Greenland
Ice Sheet
Journal of Glaciology
Svalbard
Alaska
op_source Benn , D , Gulley , J , Luckman , A , Adamek , A & Glowacki , P S 2009 , ' Englacial drainage systems formed by hydrologically driven crevasse propagation ' , Journal of Glaciology , vol. 55 , no. 191 , pp. 513-523 .
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1766339928454594560

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