Add to ORKGIntermediate‐depth earthquakes (focal depths 70–300 km) are enigmatic with respect to their nucleation and rupture mechanism and the properties controlling their spatial distribution. Several recent studies have shown a link between intermediate‐depth earthquakes and the thermal‐petrological path of subducting slabs in relation to the stability field of hydrous minerals. Here we investigate whether the structural characteristics of incoming plates can be correlated with the intermediate‐depth seismicity rate. We quantify the structural characteristics of 17 incoming plates by estimating the maximum fault throw of bending‐related faults. Maximum fault throw exhibits a statistically significant correlation with the seismicity rate. We suggest...
Although transformational faulting in the rim of the metastable olivine wedge is hypothesized as a t...
The occurrence of intermediate depth seismicity (70-300 km) is commonly attributed to the dehydratio...
The thickness of fault damage zones, a characteristic length of the cross‐fault distribution of seco...
Intermediate‐depth earthquakes (focal depths 70–300 km) are enigmatic with respect to their nucleati...
It is commonly assumed that intermediate-depth seismicity is in some way linked to dehydration react...
Intermediate depth (70-300 km) and deep (> 300 km) earthquakes have always been puzzling Earth sc...
This study investigates the spatial and temporal distribution of energy release of large, intermedia...
The occurrence of intermediate depth earthquakes at 50-300 km depth in subduction zones is puzzling,...
Intermediate-depth earthquakes occur at depths where temperatures and pressures exceed those at whic...
Abstract We review studies of intermediate-depth seismicity and seismic imaging of the interior of s...
Subducting plates release fluids as they plunge into Earth’s mantle and occasionally rupture to prod...
The dehydration of subducting oceanic crust and upper mantle has been inferred both to promote the p...
The presence of magmatism and intermediate-depth (70–300 km deep) seismicity at subduction zones is ...
Subducting oceanic plates carry a considerable amount of water from the surface down to mantle depth...
This study provides an overview of intermediate-depth earthquake phenomena, placing emphasis on the ...
Although transformational faulting in the rim of the metastable olivine wedge is hypothesized as a t...
The occurrence of intermediate depth seismicity (70-300 km) is commonly attributed to the dehydratio...
The thickness of fault damage zones, a characteristic length of the cross‐fault distribution of seco...
Intermediate‐depth earthquakes (focal depths 70–300 km) are enigmatic with respect to their nucleati...
It is commonly assumed that intermediate-depth seismicity is in some way linked to dehydration react...
Intermediate depth (70-300 km) and deep (> 300 km) earthquakes have always been puzzling Earth sc...
This study investigates the spatial and temporal distribution of energy release of large, intermedia...
The occurrence of intermediate depth earthquakes at 50-300 km depth in subduction zones is puzzling,...
Intermediate-depth earthquakes occur at depths where temperatures and pressures exceed those at whic...
Abstract We review studies of intermediate-depth seismicity and seismic imaging of the interior of s...
Subducting plates release fluids as they plunge into Earth’s mantle and occasionally rupture to prod...
The dehydration of subducting oceanic crust and upper mantle has been inferred both to promote the p...
The presence of magmatism and intermediate-depth (70–300 km deep) seismicity at subduction zones is ...
Subducting oceanic plates carry a considerable amount of water from the surface down to mantle depth...
This study provides an overview of intermediate-depth earthquake phenomena, placing emphasis on the ...
Although transformational faulting in the rim of the metastable olivine wedge is hypothesized as a t...
The occurrence of intermediate depth seismicity (70-300 km) is commonly attributed to the dehydratio...
The thickness of fault damage zones, a characteristic length of the cross‐fault distribution of seco...