Add to ORKGDynamic topography resulting from initiation of slab subduction at an ocean-continent margin causes the continental lithosphere to subside rapidly. As subduction continues and the slab shallows, a basin depocenter and forebulge migrate in toward the continental interior. Finally, closure of the ocean basin leads to regional uplift. These active margin processes have commonly been ascribed to supracrustal loading, but numerical modeling shows that dynamic subsidence rates can exceed 100 meters per million years and are similar to rates of sediment accumulation along convergen
International audienceUsing laboratory experiments, we investigate the dynamics of the collisional p...
Highlights • Subduction-induced mantle flow provides the key force to trigger breakup of conti...
Two fundamental components of plate tectonics are the separation of continents, leading to new ocean...
Dynamic topography resulting from initiation of slab subduction at an ocean-continent margin causes ...
International audienceWe investigate how subduction may be triggered by continental crust extension ...
Subduction exerts a strong control on surface topography and is the main cause of large vertical mot...
The accumulation of sediments at an Atlantic-type continental margin constitutes a load on the litho...
Overriding plate topography provides constraints on subduction zone geodynamics. We investigate its ...
At ocean margins where two plates converge, the oceanic plate sinks or is subducted beneath an upper...
Time-varying global dynamic topography has been computed for the entire Cenozoic. The spherical visc...
Thermal contraction of the lithosphere is a probable cause of the gradual subsidence indicated by se...
International audienceThe long geological history of passive margin evolution is complex yet typifie...
Here we present data from synthetic landscape evolution simulations designed to investigate the surf...
Convergence of lithospheric plates is accommodated at active margins by one plate moving beneath th...
International audienceSlab pull is the main driving force for plate motion, and is caused by the neg...
International audienceUsing laboratory experiments, we investigate the dynamics of the collisional p...
Highlights • Subduction-induced mantle flow provides the key force to trigger breakup of conti...
Two fundamental components of plate tectonics are the separation of continents, leading to new ocean...
Dynamic topography resulting from initiation of slab subduction at an ocean-continent margin causes ...
International audienceWe investigate how subduction may be triggered by continental crust extension ...
Subduction exerts a strong control on surface topography and is the main cause of large vertical mot...
The accumulation of sediments at an Atlantic-type continental margin constitutes a load on the litho...
Overriding plate topography provides constraints on subduction zone geodynamics. We investigate its ...
At ocean margins where two plates converge, the oceanic plate sinks or is subducted beneath an upper...
Time-varying global dynamic topography has been computed for the entire Cenozoic. The spherical visc...
Thermal contraction of the lithosphere is a probable cause of the gradual subsidence indicated by se...
International audienceThe long geological history of passive margin evolution is complex yet typifie...
Here we present data from synthetic landscape evolution simulations designed to investigate the surf...
Convergence of lithospheric plates is accommodated at active margins by one plate moving beneath th...
International audienceSlab pull is the main driving force for plate motion, and is caused by the neg...
International audienceUsing laboratory experiments, we investigate the dynamics of the collisional p...
Highlights • Subduction-induced mantle flow provides the key force to trigger breakup of conti...
Two fundamental components of plate tectonics are the separation of continents, leading to new ocean...