Stresses, vertical displacement and velocities for model TE60, TE120 and VL20-175 at the LGM (23kyrsBP) and present

Strong compressive and shear stresses generated by glacial loading and unloading have a direct impact on near-surface geological processes. Glacial stresses are constantly evolving, creating stress perturbations in the lithosphere that extend significant distances away from the ice load. In the Arct...

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Main Author:	Vachon, Rémi
Other Authors:	Vachon, Remi, Plaza-Faverola, Andreia, Uppsala University, Centre for Arctic Gas Hydrate, Environment and Climate (CAGE)
Format:	Other/Unknown Material
Language:	English
Published:	DataverseNO 2022
Subjects:	Earth and Environmental Sciences Glacial isostatic adjustment Arctic Fennoscandia Fram Strait Greenland Svalbard
Online Access:	https://doi.org/10.18710/QBSWEH

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record_format	openpolar
spelling	ftdataverseno:doi:10.18710/QBSWEH 2023-10-29T02:34:08+01:00 Stresses, vertical displacement and velocities for model TE60, TE120 and VL20-175 at the LGM (23kyrsBP) and present Vachon, Rémi Vachon, Remi Plaza-Faverola, Andreia Uppsala University Centre for Arctic Gas Hydrate, Environment and Climate (CAGE) 2022-02-03 https://doi.org/10.18710/QBSWEH English eng DataverseNO https://doi.org/10.18710/QBSWEH Earth and Environmental Sciences Glacial isostatic adjustment experimental data obtained from model runs 2022 ftdataverseno https://doi.org/10.18710/QBSWEH 2023-10-04T22:55:46Z Strong compressive and shear stresses generated by glacial loading and unloading have a direct impact on near-surface geological processes. Glacial stresses are constantly evolving, creating stress perturbations in the lithosphere that extend significant distances away from the ice load. In the Arctic, periodic methane seepage and faulting have been recurrently associated with glacial cycles. However, the evolution of the Arctic glacial stress field and its impact on the upper lithosphere have not been investigated. Here, we compute the evolution in space and time of the glacial stresses induced in the Arctic lithosphere by the North American, Eurasian and Greenland ice sheets during the latest glaciation. We use glacial isostatic adjustment (GIA) methodology to investigate the response of spherical, viscoelastic Earth models with varying lithospheric thickness to the ice loads. The magnitude of the vertical GIA-related stress closely follows the changing ice thickness, whilst the horizontal stresses are governed by the flexural response. We find that the GIA-induced maximum horizontal stress (σH) is compressive in regions characterized by thick ice cover, with magnitudes of 20-25 MPa in Fennoscandia and 35-40 MPa in Greenland at the last glacial maximum. Simultaneously, a tensile regime with σH magnitude down to -16 MPa dominates across far-field regions (in the forebulges) with a mean of -4 MPa across the Fram Strait. At present time, induced compressional stresses have decreased by a factor 4 across formerly glaciated regions and in the Fram Strait, σH remains tensile with an East-West orientation. The association of relatively high shear stress (~3-5 MPa) and tensile horizontal stresses along off the west-Svalbard coast could be sufficient to promote fault reactivation and dilation that favor gas leakage from gas reservoirs. This file contains data from the TE60, TE120 and VL20-175 models exported at 23 kyrs BP (LGM) and present time, sampled at 2.5 km depth. Other/Unknown Material Arctic Fennoscandia Fram Strait Greenland Svalbard DataverseNO
institution	Open Polar
collection	DataverseNO
op_collection_id	ftdataverseno
language	English
topic	Earth and Environmental Sciences Glacial isostatic adjustment
spellingShingle	Earth and Environmental Sciences Glacial isostatic adjustment Vachon, Rémi Stresses, vertical displacement and velocities for model TE60, TE120 and VL20-175 at the LGM (23kyrsBP) and present
topic_facet	Earth and Environmental Sciences Glacial isostatic adjustment
description	Strong compressive and shear stresses generated by glacial loading and unloading have a direct impact on near-surface geological processes. Glacial stresses are constantly evolving, creating stress perturbations in the lithosphere that extend significant distances away from the ice load. In the Arctic, periodic methane seepage and faulting have been recurrently associated with glacial cycles. However, the evolution of the Arctic glacial stress field and its impact on the upper lithosphere have not been investigated. Here, we compute the evolution in space and time of the glacial stresses induced in the Arctic lithosphere by the North American, Eurasian and Greenland ice sheets during the latest glaciation. We use glacial isostatic adjustment (GIA) methodology to investigate the response of spherical, viscoelastic Earth models with varying lithospheric thickness to the ice loads. The magnitude of the vertical GIA-related stress closely follows the changing ice thickness, whilst the horizontal stresses are governed by the flexural response. We find that the GIA-induced maximum horizontal stress (σH) is compressive in regions characterized by thick ice cover, with magnitudes of 20-25 MPa in Fennoscandia and 35-40 MPa in Greenland at the last glacial maximum. Simultaneously, a tensile regime with σH magnitude down to -16 MPa dominates across far-field regions (in the forebulges) with a mean of -4 MPa across the Fram Strait. At present time, induced compressional stresses have decreased by a factor 4 across formerly glaciated regions and in the Fram Strait, σH remains tensile with an East-West orientation. The association of relatively high shear stress (~3-5 MPa) and tensile horizontal stresses along off the west-Svalbard coast could be sufficient to promote fault reactivation and dilation that favor gas leakage from gas reservoirs. This file contains data from the TE60, TE120 and VL20-175 models exported at 23 kyrs BP (LGM) and present time, sampled at 2.5 km depth.
author2	Vachon, Remi Plaza-Faverola, Andreia Uppsala University Centre for Arctic Gas Hydrate, Environment and Climate (CAGE)
format	Other/Unknown Material
author	Vachon, Rémi
author_facet	Vachon, Rémi
author_sort	Vachon, Rémi
title	Stresses, vertical displacement and velocities for model TE60, TE120 and VL20-175 at the LGM (23kyrsBP) and present
title_short	Stresses, vertical displacement and velocities for model TE60, TE120 and VL20-175 at the LGM (23kyrsBP) and present
title_full	Stresses, vertical displacement and velocities for model TE60, TE120 and VL20-175 at the LGM (23kyrsBP) and present
title_fullStr	Stresses, vertical displacement and velocities for model TE60, TE120 and VL20-175 at the LGM (23kyrsBP) and present
title_full_unstemmed	Stresses, vertical displacement and velocities for model TE60, TE120 and VL20-175 at the LGM (23kyrsBP) and present
title_sort	stresses, vertical displacement and velocities for model te60, te120 and vl20-175 at the lgm (23kyrsbp) and present
publisher	DataverseNO
publishDate	2022
url	https://doi.org/10.18710/QBSWEH
genre	Arctic Fennoscandia Fram Strait Greenland Svalbard
genre_facet	Arctic Fennoscandia Fram Strait Greenland Svalbard
op_relation	https://doi.org/10.18710/QBSWEH
op_doi	https://doi.org/10.18710/QBSWEH
_version_	1781056567002529792

Stresses, vertical displacement and velocities for model TE60, TE120 and VL20-175 at the LGM (23kyrsBP) and present

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