Add to ORKGA numerical model of mantle convection shows that sea level fluctuations are not simply associated with temporal changes in ocean c plate spreading. In the dynamic model, sea level rises rapidly and then falls toward a steady value (but one still higher than the initial) following increased ridge spreading; this time dependence results from profound changes in the deep thermal structure under ocean and continent. The use of past variations in oceanic spreading to infer sea level fluctuations is called into question. With more realistic models and better continental stratigraphy, constraints may be placed on the viscosity structure of the mantle
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
International audienceMantle flow likely supports up to 2 km of long-wavelength topographic relief o...
A numerical model of mantle convection shows that sea level fluctuations are not simply associated w...
cited By 8International audienceBy means of a stratified viscoelastic Earth model we study the effec...
cited By 8International audienceBy means of a stratified viscoelastic Earth model we study the effec...
cited By 8International audienceBy means of a stratified viscoelastic Earth model we study the effec...
cited By 8International audienceBy means of a stratified viscoelastic Earth model we study the effec...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
International audienceMantle flow likely supports up to 2 km of long-wavelength topographic relief o...
A numerical model of mantle convection shows that sea level fluctuations are not simply associated w...
cited By 8International audienceBy means of a stratified viscoelastic Earth model we study the effec...
cited By 8International audienceBy means of a stratified viscoelastic Earth model we study the effec...
cited By 8International audienceBy means of a stratified viscoelastic Earth model we study the effec...
cited By 8International audienceBy means of a stratified viscoelastic Earth model we study the effec...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
By means of a stratified viscoelastic Earth model we study the effect of sinking slabs on the dynami...
International audienceMantle flow likely supports up to 2 km of long-wavelength topographic relief o...