Add to ORKGWhilst continental earthquakes nucleate predominantly in the seismogenic upper crust, deeper seismicity along intracontinental fault zones may also cause significant destruction, though deep crustal earthquakes remain relatively poorly understood. The strength of the lower crust is a crucial parameter in understanding how earthquakes may nucleate within a deformation regime that is generally regarded as viscous. Dry, plagioclase-rich crust may remain strong under high-grade conditions and able to deform by frictional failure at high differential stress, potentially enabling transient seismic behaviour. Granulite-facies mylonitic shear zones within an anorthosite intrusion in Lofoten, northern Norway, provide a field case in which to test r...
Seismic activity below the standard seismogenic zone is difficult to investigate because the geologi...
Understanding the short- and long-term mechanical behaviour of the lower crust is of fundamental imp...
The localization of deformation in dry lower continental crust and the implied rheology have been i...
Deep intracontinental earthquakes are poorly understood, despite their potential to cause significan...
Understanding the ability of the lower crust to support transient changes in stresses and strain rat...
This paper discusses the results of field-based geological investigations of exhumed rocks exposed i...
Many rheological models of the lithosphere (based on \u201cstrength envelopes\u201d) predi...
The origin of earthquakes in the lower crust at depth of 20-40 km, where dominantly ductile deformat...
This paper discusses the results of field-based geological investigations of exhumed rocks exposed i...
Understanding the mechanisms of initiation and growth of shear zones under lower crustal conditions ...
The rheology and the conditions for viscous flow of the dry granulite facies lower crust are still p...
International audienceEarthquakes in the continental crust commonly occur in the upper 15 to 20 km. ...
The structural and metamorphic evolution of the lower crust has direct effects on the lithospheric r...
Pseudotachylytes, also called “fossil earthquakes,” are the remains of solidified melt that formed a...
Seismic activity below the standard seismogenic zone is difficult to investigate because the geologi...
Understanding the short- and long-term mechanical behaviour of the lower crust is of fundamental imp...
The localization of deformation in dry lower continental crust and the implied rheology have been i...
Deep intracontinental earthquakes are poorly understood, despite their potential to cause significan...
Understanding the ability of the lower crust to support transient changes in stresses and strain rat...
This paper discusses the results of field-based geological investigations of exhumed rocks exposed i...
Many rheological models of the lithosphere (based on \u201cstrength envelopes\u201d) predi...
The origin of earthquakes in the lower crust at depth of 20-40 km, where dominantly ductile deformat...
This paper discusses the results of field-based geological investigations of exhumed rocks exposed i...
Understanding the mechanisms of initiation and growth of shear zones under lower crustal conditions ...
The rheology and the conditions for viscous flow of the dry granulite facies lower crust are still p...
International audienceEarthquakes in the continental crust commonly occur in the upper 15 to 20 km. ...
The structural and metamorphic evolution of the lower crust has direct effects on the lithospheric r...
Pseudotachylytes, also called “fossil earthquakes,” are the remains of solidified melt that formed a...
Seismic activity below the standard seismogenic zone is difficult to investigate because the geologi...
Understanding the short- and long-term mechanical behaviour of the lower crust is of fundamental imp...
The localization of deformation in dry lower continental crust and the implied rheology have been i...