Implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east Iceland rift zone

Comparison of the eroded off-rift zone left inactive by plate motion with the inner active seismic rift zone allows us to constrain the fracturing mechanisms. In eastern off-rift zone, we measured 423 fault slips (including normal and strike-slip faults). Inversion of fault slip data reveals the par...

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Main Authors: Plateaux, R., Bergerat, F., Bethoux, N., Villemin, T., Gerbault, Muriel
Format: Text
Language:English
Published: 2012
Subjects:
Icelandic rift
Stress permutation
Volcano-tectonics
Paleostresses
Fluid pore pressure
Fracturing mechanisms
Askja
Table Mountain
Upptyppingar
Iceland
Islande
Online Access:http://www.documentation.ird.fr/hor/fdi:010058943
id ftird:oai:ird.fr:fdi:010058943
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010058943 2023-05-15T16:52:52+02:00 Implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east Iceland rift zone Plateaux, R. Bergerat, F. Bethoux, N. Villemin, T. Gerbault, Muriel ISLANDE 2012 http://www.documentation.ird.fr/hor/fdi:010058943 EN eng http://www.documentation.ird.fr/hor/fdi:010058943 oai:ird.fr:fdi:010058943 Plateaux R., Bergerat F., Bethoux N., Villemin T., Gerbault Muriel. Implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east Iceland rift zone. Tectonophysics, 2012, 581 (SI), p. 19-34. Icelandic rift Stress permutation Volcano-tectonics Paleostresses Fluid pore pressure Fracturing mechanisms text 2012 ftird 2020-08-21T06:54:57Z Comparison of the eroded off-rift zone left inactive by plate motion with the inner active seismic rift zone allows us to constrain the fracturing mechanisms. In eastern off-rift zone, we measured 423 fault slips (including normal and strike-slip faults). Inversion of fault slip data reveals the parallelism of the minimum stress (sigma(3)) computed for the normal and for the strike-slip faulting, and consistency with the direction of plate divergence. North of the Vatnajokull, in the active rift zone, we analysed 14,250 earthquakes recorded by the Icelandic Meteorological Office (IMO) between 2004 and 2009, especially northeast of the Askja volcano. Two main average focal depths were determined at 5 km (Heroubreio table mountain) and 15 km (Upptyppingar hyaloclastite ridge). The double couple focal mechanisms determined by IMO revealed that more than half of the mechanisms are strike-slip. Faulting type both in active and off-rift zone reveals an unusual importance of strike-slip regime in such an extensional tectonic context. This can be explained by stress permutations (sigma(1)/sigma(2)). Similarities in terms of stress orientations and type of faulting are observed both in the old and present-day rift zones. We assume that the seismic events may be generated by rapid deep magma intrusion, also associated with shallower hydrothermal activities. We thus propose that the presence of fluids, shear failure (double couple focal mechanism) and stress permutations in both active and off-rift zones are closely linked. Assuming a Drucker-Prager failure criterion, we evaluated analytically that a state near of lithostatic pore pressure is a necessary condition for shear failure at shallow (5 km) and deep (15 km) depth, in a simple context of crustal extension that allows for stress permutations. However, processes favouring stress permutations cannot be further constrained from our observations since the dynamics of fluid, materiel heterogeneity and post-glacial rebound can also play a significant role. Text Iceland Islande IRD (Institute de recherche pour le développement): Horizon Askja ENVELOPE(-16.802,-16.802,65.042,65.042) Table Mountain ENVELOPE(69.031,69.031,-48.668,-48.668) Upptyppingar ENVELOPE(-16.245,-16.245,65.038,65.038)
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
topic Icelandic rift
Stress permutation
Volcano-tectonics
Paleostresses
Fluid pore pressure
Fracturing mechanisms
spellingShingle Icelandic rift
Stress permutation
Volcano-tectonics
Paleostresses
Fluid pore pressure
Fracturing mechanisms
Plateaux, R.
Bergerat, F.
Bethoux, N.
Villemin, T.
Gerbault, Muriel
Implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east Iceland rift zone
topic_facet Icelandic rift
Stress permutation
Volcano-tectonics
Paleostresses
Fluid pore pressure
Fracturing mechanisms
description Comparison of the eroded off-rift zone left inactive by plate motion with the inner active seismic rift zone allows us to constrain the fracturing mechanisms. In eastern off-rift zone, we measured 423 fault slips (including normal and strike-slip faults). Inversion of fault slip data reveals the parallelism of the minimum stress (sigma(3)) computed for the normal and for the strike-slip faulting, and consistency with the direction of plate divergence. North of the Vatnajokull, in the active rift zone, we analysed 14,250 earthquakes recorded by the Icelandic Meteorological Office (IMO) between 2004 and 2009, especially northeast of the Askja volcano. Two main average focal depths were determined at 5 km (Heroubreio table mountain) and 15 km (Upptyppingar hyaloclastite ridge). The double couple focal mechanisms determined by IMO revealed that more than half of the mechanisms are strike-slip. Faulting type both in active and off-rift zone reveals an unusual importance of strike-slip regime in such an extensional tectonic context. This can be explained by stress permutations (sigma(1)/sigma(2)). Similarities in terms of stress orientations and type of faulting are observed both in the old and present-day rift zones. We assume that the seismic events may be generated by rapid deep magma intrusion, also associated with shallower hydrothermal activities. We thus propose that the presence of fluids, shear failure (double couple focal mechanism) and stress permutations in both active and off-rift zones are closely linked. Assuming a Drucker-Prager failure criterion, we evaluated analytically that a state near of lithostatic pore pressure is a necessary condition for shear failure at shallow (5 km) and deep (15 km) depth, in a simple context of crustal extension that allows for stress permutations. However, processes favouring stress permutations cannot be further constrained from our observations since the dynamics of fluid, materiel heterogeneity and post-glacial rebound can also play a significant role.
format Text
author Plateaux, R.
Bergerat, F.
Bethoux, N.
Villemin, T.
Gerbault, Muriel
author_facet Plateaux, R.
Bergerat, F.
Bethoux, N.
Villemin, T.
Gerbault, Muriel
author_sort Plateaux, R.
title Implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east Iceland rift zone
title_short Implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east Iceland rift zone
title_full Implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east Iceland rift zone
title_fullStr Implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east Iceland rift zone
title_full_unstemmed Implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east Iceland rift zone
title_sort implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east iceland rift zone
publishDate 2012
url http://www.documentation.ird.fr/hor/fdi:010058943
op_coverage ISLANDE
long_lat ENVELOPE(-16.802,-16.802,65.042,65.042)
ENVELOPE(69.031,69.031,-48.668,-48.668)
ENVELOPE(-16.245,-16.245,65.038,65.038)
geographic Askja
Table Mountain
Upptyppingar
geographic_facet Askja
Table Mountain
Upptyppingar
genre Iceland
Islande
genre_facet Iceland
Islande
op_relation http://www.documentation.ird.fr/hor/fdi:010058943
oai:ird.fr:fdi:010058943
Plateaux R., Bergerat F., Bethoux N., Villemin T., Gerbault Muriel. Implications of fracturing mechanisms and fluid pressure on earthquakes and fault slip data in the east Iceland rift zone. Tectonophysics, 2012, 581 (SI), p. 19-34.
_version_ 1766043322730676224

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