Greenland Ice Sheet Surface Topography and Drainage Structure Controlled by the Transfer of Basal Variability

Greenland Ice Sheet Surface Topography and Drainage Structure Controlled by the Transfer of Basal Variability

Ice flow can transfer variations in basal topography and basal slipperiness to the ice surface. Recent developments in this theory have made it possible to conduct numerical experiments to predict mesoscale surface topographical undulations and surface relief on an ice sheet-scale. Focussing here on...

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Main Authors: Ádám Ignéczi, Andrew J. Sole, Stephen J. Livingstone, Felix S. L. Ng, Kang Yang
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-08-01
Series:Frontiers in Earth Science
Subjects:
greenland ice sheet
basal variability transfer
surface relief
surface drainage
surface mass balance
surface lakes
Online Access:https://www.frontiersin.org/article/10.3389/feart.2018.00101/full
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spelling doaj-24644ab4de06461cb456b611389e09792020-11-24T23:35:20ZengFrontiers Media S.A.Frontiers in Earth Science2296-64632018-08-01610.3389/feart.2018.00101356091Greenland Ice Sheet Surface Topography and Drainage Structure Controlled by the Transfer of Basal VariabilityÁdám Ignéczi0Andrew J. Sole1Stephen J. Livingstone2Felix S. L. Ng3Kang Yang4Kang Yang5Department of Geography, University of Sheffield, Sheffield, United KingdomDepartment of Geography, University of Sheffield, Sheffield, United KingdomDepartment of Geography, University of Sheffield, Sheffield, United KingdomDepartment of Geography, University of Sheffield, Sheffield, United KingdomSchool of Geographical and Oceanographic Sciences, Nanjing University, Nanjing, ChinaJoint Center for Global Change Studies, Beijing, ChinaIce flow can transfer variations in basal topography and basal slipperiness to the ice surface. Recent developments in this theory have made it possible to conduct numerical experiments to predict mesoscale surface topographical undulations and surface relief on an ice sheet-scale. Focussing here on the contemporary Greenland Ice Sheet (GrIS), we demonstrate that the theory can be used to predict the surface relief of the ice sheet from bed topography, ice thickness and basal slip ratio datasets. In certain regions of the GrIS our approach overestimates, while in others underestimates, the observed surface relief. The magnitude and spatial pattern of these mismatches correspond with the theory's limitations and known uncertainties in the bed topography and basal slip ratio datasets. Our prediction experiment establishes that the first-order control on GrIS surface relief is basal topography modulated by ice thickness, surface slope and basal slip ratio. Additional analyses show that the surface relief, which is controlled by the bed-to-surface transfer of basal topography, preconditions the large scale spatial structure of surface drainage, with other factors such as surface runoff modulating the actual drainage system through influencing the temporal evolution of meltwater features. It follows that the spatial structure of surface drainage depends strongly on the transfer of basal topography to the ice surface. These findings represent an important step toward investigating and understanding the net long-term (>102 years) effect of surface drainage on ice sheet mass balance and dynamics during deglaciation events.https://www.frontiersin.org/article/10.3389/feart.2018.00101/fullgreenland ice sheetbasal variability transfersurface reliefsurface drainagesurface mass balancesurface lakes
collection DOAJ
language English
format Article
sources DOAJ
author Ádám Ignéczi
Andrew J. Sole
Stephen J. Livingstone
Felix S. L. Ng
Kang Yang
Kang Yang
spellingShingle Ádám Ignéczi
Andrew J. Sole
Stephen J. Livingstone
Felix S. L. Ng
Kang Yang
Kang Yang
Greenland Ice Sheet Surface Topography and Drainage Structure Controlled by the Transfer of Basal Variability
Frontiers in Earth Science
greenland ice sheet
basal variability transfer
surface relief
surface drainage
surface mass balance
surface lakes
author_facet Ádám Ignéczi
Andrew J. Sole
Stephen J. Livingstone
Felix S. L. Ng
Kang Yang
Kang Yang
author_sort Ádám Ignéczi
title Greenland Ice Sheet Surface Topography and Drainage Structure Controlled by the Transfer of Basal Variability
title_short Greenland Ice Sheet Surface Topography and Drainage Structure Controlled by the Transfer of Basal Variability
title_full Greenland Ice Sheet Surface Topography and Drainage Structure Controlled by the Transfer of Basal Variability
title_fullStr Greenland Ice Sheet Surface Topography and Drainage Structure Controlled by the Transfer of Basal Variability
title_full_unstemmed Greenland Ice Sheet Surface Topography and Drainage Structure Controlled by the Transfer of Basal Variability
title_sort greenland ice sheet surface topography and drainage structure controlled by the transfer of basal variability
publisher Frontiers Media S.A.
series Frontiers in Earth Science
issn 2296-6463
publishDate 2018-08-01
description Ice flow can transfer variations in basal topography and basal slipperiness to the ice surface. Recent developments in this theory have made it possible to conduct numerical experiments to predict mesoscale surface topographical undulations and surface relief on an ice sheet-scale. Focussing here on the contemporary Greenland Ice Sheet (GrIS), we demonstrate that the theory can be used to predict the surface relief of the ice sheet from bed topography, ice thickness and basal slip ratio datasets. In certain regions of the GrIS our approach overestimates, while in others underestimates, the observed surface relief. The magnitude and spatial pattern of these mismatches correspond with the theory's limitations and known uncertainties in the bed topography and basal slip ratio datasets. Our prediction experiment establishes that the first-order control on GrIS surface relief is basal topography modulated by ice thickness, surface slope and basal slip ratio. Additional analyses show that the surface relief, which is controlled by the bed-to-surface transfer of basal topography, preconditions the large scale spatial structure of surface drainage, with other factors such as surface runoff modulating the actual drainage system through influencing the temporal evolution of meltwater features. It follows that the spatial structure of surface drainage depends strongly on the transfer of basal topography to the ice surface. These findings represent an important step toward investigating and understanding the net long-term (>102 years) effect of surface drainage on ice sheet mass balance and dynamics during deglaciation events.
topic greenland ice sheet
basal variability transfer
surface relief
surface drainage
surface mass balance
surface lakes
url https://www.frontiersin.org/article/10.3389/feart.2018.00101/full
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