Analysis of seismicity can illuminate active fault zone structures but also deformation within large volumes of the seismogenic zone. For the Mw 6.5 2016–2017 Central Italy seismic sequence, seismicity not only localizes along the major structures hosting the mainshocks (on-fault seismicity), but also occurs within volumes of Triassic Evaporites, TE, composed of alternated anhydrites and dolostones. These volumes of distributed microseismicity show a different frequency-magnitude distribution than on-fault seismicity. We interpret that, during the sequence, shear strain-rate increase, and fluid overpressure promoted widespread ductile deformation within TE that light-up with distributed microseismicity. This interpretation is supported by f...
AbstractThe fault activation (fault on) interrupts the enduring fault locking (fault off) and marks ...
The Earth\u2019s crust is generally considered to consist of distinct brittle and viscous (or \u201c...
Fault zones contain structural complexity on all scales. This complexity influences fault mechanics ...
The microfabric of fault rocks from the base of the seismogenic zone, i.e., for the continental crus...
We propose that the brittle-ductile transition (BDT) controls the seismic cycle. In particular, the ...
Surface faulting earthquakes are known to cluster in time from historical and palaeoseismic studies,...
AbstractWe propose that the brittle-ductile transition (BDT) controls the seismic cycle. In particul...
Although rheological heterogeneities are invoked to explain differences in fault-slip behavior, case...
Fault slip speeds range from steady plate boundary creep through to earthquake slip. Geological desc...
In many seismically active countries (e.g., Italy, Greece, Turkey, China, USA) moderate to large ear...
Interconnected networks of faults and veins filled with hydrothermal minerals such as zeolite are wi...
International audienceViscous flow at depth contributes to elastic strain accumulation along seismog...
Abstract In 2016–2017, a destructive sequence of earthquakes affected a wide portion of Central Ital...
We use high-resolution earthquake locations to characterize the three-dimensional structure of activ...
Interconnected networks of faults and veins filled with hydrothermal minerals such as zeolite are wi...
AbstractThe fault activation (fault on) interrupts the enduring fault locking (fault off) and marks ...
The Earth\u2019s crust is generally considered to consist of distinct brittle and viscous (or \u201c...
Fault zones contain structural complexity on all scales. This complexity influences fault mechanics ...
The microfabric of fault rocks from the base of the seismogenic zone, i.e., for the continental crus...
We propose that the brittle-ductile transition (BDT) controls the seismic cycle. In particular, the ...
Surface faulting earthquakes are known to cluster in time from historical and palaeoseismic studies,...
AbstractWe propose that the brittle-ductile transition (BDT) controls the seismic cycle. In particul...
Although rheological heterogeneities are invoked to explain differences in fault-slip behavior, case...
Fault slip speeds range from steady plate boundary creep through to earthquake slip. Geological desc...
In many seismically active countries (e.g., Italy, Greece, Turkey, China, USA) moderate to large ear...
Interconnected networks of faults and veins filled with hydrothermal minerals such as zeolite are wi...
International audienceViscous flow at depth contributes to elastic strain accumulation along seismog...
Abstract In 2016–2017, a destructive sequence of earthquakes affected a wide portion of Central Ital...
We use high-resolution earthquake locations to characterize the three-dimensional structure of activ...
Interconnected networks of faults and veins filled with hydrothermal minerals such as zeolite are wi...
AbstractThe fault activation (fault on) interrupts the enduring fault locking (fault off) and marks ...
The Earth\u2019s crust is generally considered to consist of distinct brittle and viscous (or \u201c...
Fault zones contain structural complexity on all scales. This complexity influences fault mechanics ...