The mechanism of extension in the continental crust is apparently much more complex than that acting in the oceanic lithosphere. Recently, Wernicke has proposed that a significant fraction of extension in the continental lithosphere may occur by a simple shear mechanism along discrete fault/shear zones which cut the crust, and perhaps extend into the uppermost mantle. Clearly much of the surface evidence for extension supports this concept, but the depth extent of simple shear extension in the continental crust is unclear. Using numerical simulations, the thermal and associated mechanical behavior of the continental lithosphere in response to lithosphere extension along a low-angle simple shear zone which cuts through the lithospheric plate...
A two-dimensional numerical simulation of lithospheric shortening shows the formation of a stable cr...
International audienceModelling the long-term geodynamic history (>100 Myrs) of orogens such as the ...
The strength of the lithosphere is the integrated force required to cause deformation at a given rat...
Crustal extension is accommodated by a wide range of structural styles ranging from high-angle norma...
We present numerical models that investigate the development of crustal and mantle detachments durin...
We explore the sensitivity of extensional systems to the thermal structure of the lithosphere using ...
Deep seismic reflection data has shown the importance of low angle faults and detachments in contine...
We use numerical modeling to investigate the development of crustal and mantle detachments during li...
Intracontinental zones of extensional tectonic style are commonly of finite width and length. Associ...
Dissimilar temperature profiles beneath oceans and continents give rise to thermoelastic stresses at...
In rift zones, both the crust and the lithosphere get thinner. The amplitude and the mechanism of th...
The effects of a temperature-dependent rheology on large-scale continental extension are investigate...
Deep crustal and mantle rocks are exhumed in core complex mode of extension in three types of struct...
We model the evolution of the lithosphere during its shortening and consequent gravitational collaps...
We model the evolution of the lithosphere during its shortening and consequent gravitational collaps...
A two-dimensional numerical simulation of lithospheric shortening shows the formation of a stable cr...
International audienceModelling the long-term geodynamic history (>100 Myrs) of orogens such as the ...
The strength of the lithosphere is the integrated force required to cause deformation at a given rat...
Crustal extension is accommodated by a wide range of structural styles ranging from high-angle norma...
We present numerical models that investigate the development of crustal and mantle detachments durin...
We explore the sensitivity of extensional systems to the thermal structure of the lithosphere using ...
Deep seismic reflection data has shown the importance of low angle faults and detachments in contine...
We use numerical modeling to investigate the development of crustal and mantle detachments during li...
Intracontinental zones of extensional tectonic style are commonly of finite width and length. Associ...
Dissimilar temperature profiles beneath oceans and continents give rise to thermoelastic stresses at...
In rift zones, both the crust and the lithosphere get thinner. The amplitude and the mechanism of th...
The effects of a temperature-dependent rheology on large-scale continental extension are investigate...
Deep crustal and mantle rocks are exhumed in core complex mode of extension in three types of struct...
We model the evolution of the lithosphere during its shortening and consequent gravitational collaps...
We model the evolution of the lithosphere during its shortening and consequent gravitational collaps...
A two-dimensional numerical simulation of lithospheric shortening shows the formation of a stable cr...
International audienceModelling the long-term geodynamic history (>100 Myrs) of orogens such as the ...
The strength of the lithosphere is the integrated force required to cause deformation at a given rat...