The effect of valley confluence and bedrock geology upon the location and depth of glacial overdeepenings
The effect of valley confluence and bedrock geology upon the location and depth of glacial overdeepenings
Overdeepenings are erosional landforms, cut by glaciers into bedrock in basins and valleys. Overdeepening is the glaciological and geomorphological process that produces these landforms. The overdeepening process is important because it has the potential to influence the response of ice masses to climatic changes. In this paper, we analyze topographic and bathymetric digital elevation models to examine several hundred glacial overdeepenings in Labrador, Canada. We investigate controls upon the location and depth of overdeepenings. Our analyses show that the location of overdeepenings correlate strongly with confluences of glacial valleys and, importantly, that the correlation is strongest where confluence geometry requires the speed-up of ice-flow due to change in valley cross-sectional area. Further, we find that the magnitude of ice-flow speed-up correlates with depth of overdeepenings only for confluences situated in or near major geological fault-zones. Our findings therefore support the hypothesis that overdeepening can be initiated by an increase in ice velocity. Further, we conclude that overdeepening is most efficacious where fractured bedrock enables efficient quarrying. In summary, we find that the primary control upon the location of overdeepenings arises from confluences of glacial valleys due to ice speeding up at these locations, and that the depth of overdeepenings are controlled by rock mass strength. These findings are relevant for landscape evolution modelling and may be used in model testing.
Overdeepening; glacial; geomorphology; valley confluence; geological fault; ice velocity
Lloyd, Christopher T.
de6d850d-fba9-4f7e-9340-8ba750bfd9a6
Clark, Chris D.
d0ab3280-f6b2-4dff-b4b7-efbf23d3cdd7
Swift, Darrel
ac4590ea-3b0c-4265-a813-29f899899757
Lloyd, Christopher T.
de6d850d-fba9-4f7e-9340-8ba750bfd9a6
Clark, Chris D.
d0ab3280-f6b2-4dff-b4b7-efbf23d3cdd7
Swift, Darrel
ac4590ea-3b0c-4265-a813-29f899899757
Lloyd, Christopher T., Clark, Chris D. and Swift, Darrel
(2023)
The effect of valley confluence and bedrock geology upon the location and depth of glacial overdeepenings.
Geografiska Annaler.
(doi:10.1080/04353676.2023.2217047).
Abstract
Overdeepenings are erosional landforms, cut by glaciers into bedrock in basins and valleys. Overdeepening is the glaciological and geomorphological process that produces these landforms. The overdeepening process is important because it has the potential to influence the response of ice masses to climatic changes. In this paper, we analyze topographic and bathymetric digital elevation models to examine several hundred glacial overdeepenings in Labrador, Canada. We investigate controls upon the location and depth of overdeepenings. Our analyses show that the location of overdeepenings correlate strongly with confluences of glacial valleys and, importantly, that the correlation is strongest where confluence geometry requires the speed-up of ice-flow due to change in valley cross-sectional area. Further, we find that the magnitude of ice-flow speed-up correlates with depth of overdeepenings only for confluences situated in or near major geological fault-zones. Our findings therefore support the hypothesis that overdeepening can be initiated by an increase in ice velocity. Further, we conclude that overdeepening is most efficacious where fractured bedrock enables efficient quarrying. In summary, we find that the primary control upon the location of overdeepenings arises from confluences of glacial valleys due to ice speeding up at these locations, and that the depth of overdeepenings are controlled by rock mass strength. These findings are relevant for landscape evolution modelling and may be used in model testing.
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The effect of valley confluence and bedrock geology upon the location and depth of glacial overdeepenings
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e-pub ahead of print date: 5 June 2023
Keywords:
Overdeepening; glacial; geomorphology; valley confluence; geological fault; ice velocity
Identifiers
Local EPrints ID: 490655
URI: http://eprints.soton.ac.uk/id/eprint/490655
ISSN: 0435-3676
PURE UUID: 08780e74-70bc-4b50-a9f8-ffc09330affc
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Date deposited: 03 Jun 2024 16:30
Last modified: 04 Jun 2024 01:47
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Author:
Chris D. Clark
Author:
Darrel Swift
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