Sensitivity of calving glaciers to ice-ocean interactions under climate change: New insights from a 3D full-Stokes model
Iceberg calving accounts for between 30% and 60% of net mass loss from the Greenland Ice Sheet, which has intensified and is now the single largest contributor to global sea level rise in the cryosphere. Changes to calving rates and the dynamics of calving glaciers represent a significant uncertaint...
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Copernicus Publications
2019
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| Online Access: | https://www.repository.cam.ac.uk/handle/1810/293638 https://doi.org/10.17863/CAM.40751 |
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ftunivcam:oai:www.repository.cam.ac.uk:1810/293638 2024-01-14T10:07:02+01:00 Sensitivity of calving glaciers to ice-ocean interactions under climate change: New insights from a 3D full-Stokes model Todd, Joe Christoffersen, Poul Zwinger, Thomas Råback, Peter Benn, Douglas 2019-02-20 application/pdf https://www.repository.cam.ac.uk/handle/1810/293638 https://doi.org/10.17863/CAM.40751 eng eng Copernicus Publications https://www.the-cryosphere.net/13/1681/2019/ The Cryosphere https://www.repository.cam.ac.uk/handle/1810/293638 doi:10.17863/CAM.40751 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ 37 Earth Sciences 3709 Physical Geography and Environmental Geoscience 3705 Geology 13 Climate Action Article 2019 ftunivcam https://doi.org/10.17863/CAM.40751 2023-12-21T23:25:23Z Iceberg calving accounts for between 30% and 60% of net mass loss from the Greenland Ice Sheet, which has intensified and is now the single largest contributor to global sea level rise in the cryosphere. Changes to calving rates and the dynamics of calving glaciers represent a significant uncertainty in projections of future sea level rise. A growing body of observational evidence suggests that calving glaciers respond rapidly to regional environmental change, but predictive capacity is limited by the lack of suitable models capable of simulating calving mechanisms realistically. Here, we use a 3-D full-Stokes calving model to investigate the environmental sensitivity of Store Glacier, a large outlet glacier inWest Greenland.We focus on two environmental processes: undercutting by submarine melting and buttressing by ice mélange, and our results indicate that Store Glacier is likely to be able to withstand moderate warming perturbations in which the former is increased by 50% and the latter reduced by 50 %. However, severe perturbation with a doubling of submarine melt rates or a complete loss of ice mélange destabilises the calving front in our model runs. Furthermore, our analysis reveals that stress and fracture patterns at Store’s terminus are complex and varied, primarily due to the influence of basal topography. Calving style and environmental sensitivity vary greatly, with propagation of surface crevasses significantly influencing iceberg production in the northern side, whereas basal crevasses dominate in the south. Any future retreat is likely to be initiated in the southern side by a combination of increased submarine melt rates in summer and reduced mélange strength in winter. The lateral variability, as well as the importance of rotational and bending forces at the terminus, underlines the importance of using the 3-D full-Stokes stress solution when modelling Greenland’s calving glaciers. Article is output from NERC PhD studentship (Todd) and NERC grant (Christoffersen) Article in Journal/Newspaper glacier Greenland Ice Sheet Apollo - University of Cambridge Repository Christoffersen ENVELOPE(-45.050,-45.050,-60.733,-60.733) Greenland Todd ENVELOPE(-85.933,-85.933,-78.050,-78.050) |
| institution |
Open Polar |
| collection |
Apollo - University of Cambridge Repository |
| op_collection_id |
ftunivcam |
| language |
English |
| topic |
37 Earth Sciences 3709 Physical Geography and Environmental Geoscience 3705 Geology 13 Climate Action |
| spellingShingle |
37 Earth Sciences 3709 Physical Geography and Environmental Geoscience 3705 Geology 13 Climate Action Todd, Joe Christoffersen, Poul Zwinger, Thomas Råback, Peter Benn, Douglas Sensitivity of calving glaciers to ice-ocean interactions under climate change: New insights from a 3D full-Stokes model |
| topic_facet |
37 Earth Sciences 3709 Physical Geography and Environmental Geoscience 3705 Geology 13 Climate Action |
| description |
Iceberg calving accounts for between 30% and 60% of net mass loss from the Greenland Ice Sheet, which has intensified and is now the single largest contributor to global sea level rise in the cryosphere. Changes to calving rates and the dynamics of calving glaciers represent a significant uncertainty in projections of future sea level rise. A growing body of observational evidence suggests that calving glaciers respond rapidly to regional environmental change, but predictive capacity is limited by the lack of suitable models capable of simulating calving mechanisms realistically. Here, we use a 3-D full-Stokes calving model to investigate the environmental sensitivity of Store Glacier, a large outlet glacier inWest Greenland.We focus on two environmental processes: undercutting by submarine melting and buttressing by ice mélange, and our results indicate that Store Glacier is likely to be able to withstand moderate warming perturbations in which the former is increased by 50% and the latter reduced by 50 %. However, severe perturbation with a doubling of submarine melt rates or a complete loss of ice mélange destabilises the calving front in our model runs. Furthermore, our analysis reveals that stress and fracture patterns at Store’s terminus are complex and varied, primarily due to the influence of basal topography. Calving style and environmental sensitivity vary greatly, with propagation of surface crevasses significantly influencing iceberg production in the northern side, whereas basal crevasses dominate in the south. Any future retreat is likely to be initiated in the southern side by a combination of increased submarine melt rates in summer and reduced mélange strength in winter. The lateral variability, as well as the importance of rotational and bending forces at the terminus, underlines the importance of using the 3-D full-Stokes stress solution when modelling Greenland’s calving glaciers. Article is output from NERC PhD studentship (Todd) and NERC grant (Christoffersen) |
| format |
Article in Journal/Newspaper |
| author |
Todd, Joe Christoffersen, Poul Zwinger, Thomas Råback, Peter Benn, Douglas |
| author_facet |
Todd, Joe Christoffersen, Poul Zwinger, Thomas Råback, Peter Benn, Douglas |
| author_sort |
Todd, Joe |
| title |
Sensitivity of calving glaciers to ice-ocean interactions under climate change: New insights from a 3D full-Stokes model |
| title_short |
Sensitivity of calving glaciers to ice-ocean interactions under climate change: New insights from a 3D full-Stokes model |
| title_full |
Sensitivity of calving glaciers to ice-ocean interactions under climate change: New insights from a 3D full-Stokes model |
| title_fullStr |
Sensitivity of calving glaciers to ice-ocean interactions under climate change: New insights from a 3D full-Stokes model |
| title_full_unstemmed |
Sensitivity of calving glaciers to ice-ocean interactions under climate change: New insights from a 3D full-Stokes model |
| title_sort |
sensitivity of calving glaciers to ice-ocean interactions under climate change: new insights from a 3d full-stokes model |
| publisher |
Copernicus Publications |
| publishDate |
2019 |
| url |
https://www.repository.cam.ac.uk/handle/1810/293638 https://doi.org/10.17863/CAM.40751 |
| long_lat |
ENVELOPE(-45.050,-45.050,-60.733,-60.733) ENVELOPE(-85.933,-85.933,-78.050,-78.050) |
| geographic |
Christoffersen Greenland Todd |
| geographic_facet |
Christoffersen Greenland Todd |
| genre |
glacier Greenland Ice Sheet |
| genre_facet |
glacier Greenland Ice Sheet |
| op_relation |
https://www.repository.cam.ac.uk/handle/1810/293638 doi:10.17863/CAM.40751 |
| op_rights |
Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ |
| op_doi |
https://doi.org/10.17863/CAM.40751 |
| _version_ |
1788061453128826880 |