Decadal to Centennial Timescale Mantle Viscosity Inferred from Modern Crustal Uplift Rates in Greenland

The observed crustal uplift rates in Greenland are caused by the combined response of the solid Earth to both ongoing and past surface mass changes. Existing elastic Earth models and Maxwell linear viscoelastic GIA (glacial isostatic adjustment) models together underpredict the observed uplift rates...

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Published in:Geophysical Research Letters
Main Authors: Adhikari, S., Milne, G. A., Caron, L., Khan, S. A., Kjeldsen, K. K., Nilsson, J., Larour, E., Ivins, E. R.
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Greenland
Online Access:https://orbit.dtu.dk/en/publications/3d005a4f-20d1-4553-80aa-62043615a935
https://doi.org/10.1029/2021GL094040
https://backend.orbit.dtu.dk/ws/files/259139254/2021GL094040_2_.pdf
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spelling ftdtupubl:oai:pure.atira.dk:publications/3d005a4f-20d1-4553-80aa-62043615a935 2024-06-23T07:53:15+00:00 Decadal to Centennial Timescale Mantle Viscosity Inferred from Modern Crustal Uplift Rates in Greenland Adhikari, S. Milne, G. A. Caron, L. Khan, S. A. Kjeldsen, K. K. Nilsson, J. Larour, E. Ivins, E. R. 2021 application/pdf https://orbit.dtu.dk/en/publications/3d005a4f-20d1-4553-80aa-62043615a935 https://doi.org/10.1029/2021GL094040 https://backend.orbit.dtu.dk/ws/files/259139254/2021GL094040_2_.pdf eng eng https://orbit.dtu.dk/en/publications/3d005a4f-20d1-4553-80aa-62043615a935 info:eu-repo/semantics/openAccess Adhikari , S , Milne , G A , Caron , L , Khan , S A , Kjeldsen , K K , Nilsson , J , Larour , E & Ivins , E R 2021 , ' Decadal to Centennial Timescale Mantle Viscosity Inferred from Modern Crustal Uplift Rates in Greenland ' , Geophysical Research Letters , vol. 48 , no. 19 , e2021GL094040 . https://doi.org/10.1029/2021GL094040 article 2021 ftdtupubl https://doi.org/10.1029/2021GL094040 2024-06-11T15:05:08Z The observed crustal uplift rates in Greenland are caused by the combined response of the solid Earth to both ongoing and past surface mass changes. Existing elastic Earth models and Maxwell linear viscoelastic GIA (glacial isostatic adjustment) models together underpredict the observed uplift rates. These models do not capture the ongoing mantle deformation induced by significant ice melting since the Little Ice Age. Using a simple Earth model within a Bayesian framework, we show that this recent mass loss can explain the data-model misfits but only when a reduced mantle strength is considered. The inferred viscosity for sub-centennial timescale mantle deformation is roughly one order of magnitude smaller than the upper mantle viscosity inferred from GIA analysis of geological sea-level data. Reconciliation of geological sea-level and modern crustal motion data may require that the model effective viscosity be treated with greater sophistication than in the simple Maxwell rheological paradigm. Article in Journal/Newspaper Greenland Technical University of Denmark: DTU Orbit Greenland Geophysical Research Letters 48 19
institution Open Polar
collection Technical University of Denmark: DTU Orbit
op_collection_id ftdtupubl
language English
description The observed crustal uplift rates in Greenland are caused by the combined response of the solid Earth to both ongoing and past surface mass changes. Existing elastic Earth models and Maxwell linear viscoelastic GIA (glacial isostatic adjustment) models together underpredict the observed uplift rates. These models do not capture the ongoing mantle deformation induced by significant ice melting since the Little Ice Age. Using a simple Earth model within a Bayesian framework, we show that this recent mass loss can explain the data-model misfits but only when a reduced mantle strength is considered. The inferred viscosity for sub-centennial timescale mantle deformation is roughly one order of magnitude smaller than the upper mantle viscosity inferred from GIA analysis of geological sea-level data. Reconciliation of geological sea-level and modern crustal motion data may require that the model effective viscosity be treated with greater sophistication than in the simple Maxwell rheological paradigm.
format Article in Journal/Newspaper
author Adhikari, S.
Milne, G. A.
Caron, L.
Khan, S. A.
Kjeldsen, K. K.
Nilsson, J.
Larour, E.
Ivins, E. R.
spellingShingle Adhikari, S.
Milne, G. A.
Caron, L.
Khan, S. A.
Kjeldsen, K. K.
Nilsson, J.
Larour, E.
Ivins, E. R.
Decadal to Centennial Timescale Mantle Viscosity Inferred from Modern Crustal Uplift Rates in Greenland
author_facet Adhikari, S.
Milne, G. A.
Caron, L.
Khan, S. A.
Kjeldsen, K. K.
Nilsson, J.
Larour, E.
Ivins, E. R.
author_sort Adhikari, S.
title Decadal to Centennial Timescale Mantle Viscosity Inferred from Modern Crustal Uplift Rates in Greenland
title_short Decadal to Centennial Timescale Mantle Viscosity Inferred from Modern Crustal Uplift Rates in Greenland
title_full Decadal to Centennial Timescale Mantle Viscosity Inferred from Modern Crustal Uplift Rates in Greenland
title_fullStr Decadal to Centennial Timescale Mantle Viscosity Inferred from Modern Crustal Uplift Rates in Greenland
title_full_unstemmed Decadal to Centennial Timescale Mantle Viscosity Inferred from Modern Crustal Uplift Rates in Greenland
title_sort decadal to centennial timescale mantle viscosity inferred from modern crustal uplift rates in greenland
publishDate 2021
url https://orbit.dtu.dk/en/publications/3d005a4f-20d1-4553-80aa-62043615a935
https://doi.org/10.1029/2021GL094040
https://backend.orbit.dtu.dk/ws/files/259139254/2021GL094040_2_.pdf
geographic Greenland
geographic_facet Greenland
genre Greenland
genre_facet Greenland
op_source Adhikari , S , Milne , G A , Caron , L , Khan , S A , Kjeldsen , K K , Nilsson , J , Larour , E & Ivins , E R 2021 , ' Decadal to Centennial Timescale Mantle Viscosity Inferred from Modern Crustal Uplift Rates in Greenland ' , Geophysical Research Letters , vol. 48 , no. 19 , e2021GL094040 . https://doi.org/10.1029/2021GL094040
op_relation https://orbit.dtu.dk/en/publications/3d005a4f-20d1-4553-80aa-62043615a935
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1029/2021GL094040
container_title Geophysical Research Letters
container_volume 48
container_issue 19
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