Ground deformation and gravity variations modelled from present-day ice thinning in the vicinity of glaciers

Abstract The solid Earth deforms because of post-glacial rebound due to the viscous relaxation following the last deglaciation but also because of present-day elastic deformation induced by ice thinning. In this paper, we compute elastic loading Green's function associated to the tilt of the gr...

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Bibliographic Details
Published in:Journal of Geodynamics
Language:English
Published: Elsevier 2011
Subjects:
ground tilt
gravity variations
elastic deformations
present-day ice thinning
Svalbard
Norway
Mont Blanc
Descartes
ren
Online Access:http://hdl.handle.net/2262/55795
https://doi.org/10.1016/j.jog.2009.09.006
Description
Summary:Abstract The solid Earth deforms because of post-glacial rebound due to the viscous relaxation following the last deglaciation but also because of present-day elastic deformation induced by ice thinning. In this paper, we compute elastic loading Green's function associated to the tilt of the ground in the vicinity of glaciers using a Love number formalism for a stratified non-rotating spherical Earth model. We compare this global approach with the plane approximation in terms of height, gravity and tilt changes as a function of the distance from the measurement point to the load. We find that Green's functions for the vertical displacement (resp. horizontal displacement, elastic part of the tilt) agree to within 1% up to ~400 m (resp. 2km, 5km) from the glaciers.Two specific cases of ice thinning are considered:1/ the alpine glaciers of the Mont Blanc region (France) where ice-thickness variations are derived from differential digital elevation model analysis for the period 1979-2003; 2/ the Svalbard (Norway) glaciers by considering the ice model SVAL. We show that the rates of ground tilt are well above the limit of detection of up-todate long base hydrostatic tiltmeters, which, if installed next to the glaciers, could be used to monitor the time evolution of ice thinning. We also show that the topography has a strong influence on the gravity variations near the glaciers. correspondance: Corresponding author. Tel.: +33 3 90240034; fax: +33 3 90240291. (Memin, A.) anthony.memin@eost.u-strasbg.fr (Memin, A.) IPGS-EOST--> , CNRS/UdS--> , UMR 7516--> , 5 rue Ren?e Descartes--> , 67084 Strasbourg Cedex--> - FRANCE (Memin, A.) IPGS-EOST--> , CNRS/UdS--> , UMR 7516--> , 5 rue Ren?e Descartes--> , 67084 Strasbourg Cedex--> - FRANCE (Memin, A.) IPGS-EOST--> , CNRS/UdS--> , UMR 7516--> , 5 rue Ren?e Descartes--> , 67084 Strasbourg Cedex--> - FRANCE (Rogister, Y.) IPGS-EOST--> , CNRS/UdS--> , UMR 7516--> , 5 rue Ren?e Descartes--> , 67084 Strasbourg Cedex--> - FRANCE (Hinderer, J.) Universit?e de Toulouse; UPS (OMP-PCA); LEGOS; 14 Av. Edouard Belin--> , 31400--> , Toulouse--> - FRANCE (Llubes, M.) Universit?e de Toulouse; UPS (OMP-PCA); LEGOS; 14 Av. Edouard Belin--> , 31400--> , Toulouse--> - FRANCE (Berthier, E.) CNRS; LEGOS; 14 Avenue Ed. Belin--> , 31400 Toulouse--> - FRANCE (Berthier, E.) IPGS-EOST--> , CNRS/UdS--> , UMR 7516--> , 5 rue Ren?e Descartes--> , 67084 Strasbourg Cedex--> - FRANCE (Boy, J.-P.) FRANCE

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