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Tectonic pressure gradients during viscous creep drive fluid flow and brittle failure at the base of the seismogenic zone

Luca Menegon, Åke Fagereng

2021Geology26 citationsDOIOpen Access PDF

Abstract

Abstract Fluid-pressure cycles are commonly invoked to explain alternating frictional and viscous deformation at the base of the seismogenic crust. However, the stress conditions and geological environment of fluid-pressure cycling are unclear. We address this problem by detailed structural investigation of a vein-bearing shear zone at Sagelvvatn, northern Norwegian Caledonides. In this dominantly viscous shear zone, synkinematic quartz veins locally crosscut mylonitic fabric at a high angle and are rotated and folded with the same sense of shear as the mylonite. Chlorite thermometry indicates that both veining and mylonitization occurred at ∼315–400 °C. The vein-filled fractures are interpreted as episodically triggered by viscous creep in the mylonite, where quartz piezometry and brittle failure modes are consistent with low (18–44 MPa) differential stress. The Sagelvvatn shear zone is a stretching shear zone, where elevated pressure drives a hydraulic gradient that expels fluids from the shear zone to the host rocks. In low-permeability shear zones, this hydraulic gradient facilitates build-up of pore-fluid pressure until the hydrofracture criterion is reached and tensile fractures open. We propose that hydraulic gradients established by local and cyclic pressure variations during viscous creep can drive episodic fluid escape and result in brittle-viscous fault slip at the base of the seismogenic crust.

Topics & Concepts

GeologyMyloniteShear zoneDifferential stressShear (geology)Pressure solutionBrittlenessCreepPressure gradientPetrologyCrustShear stressSeismologyTectonicsGeotechnical engineeringDeformation (meteorology)GeophysicsPorosityMechanicsMaterials scienceOceanographyPhysicsComposite materialearthquake and tectonic studiesGeological and Geochemical AnalysisHigh-pressure geophysics and materials
Tectonic pressure gradients during viscous creep drive fluid flow and brittle failure at the base of the seismogenic zone | Litcius