Add to ORKGTomographic imaging indicates that slabs of subducted lithosphere can sink deep into Earth's lower mantle. The view that convective flow is stratified at 660-kilometer depth and preserves a relatively pristine lower mantle is therefore not tenable. However, a range of geophysical evidence indicates that compositionally distinct, hence convectively isolated, mantle domains may exist in the bottom 1000 kilometers of the mantle. Survival of these domains, which are perhaps related to local iron enrichment and silicate-to-oxide transformations, implies that mantle convection is more complex than envisaged by conventional end-member flow models
The Earth's D'' layer, the lowermost 200-300 km of the mantle, is perhaps as rich in chemical, phase...
We review the present state of our understanding of mantle convection with respect to geochemical a...
The Earth's D'' layer, the lowermost 200-300 km of the mantle, is perhaps as rich in chemical, phase...
In the past decade, tomographic imaging has revealed that trajectories of mantle convection are more...
In the past decade, tomographic imaging has revealed that trajectories of mantle convection are more...
Improved constraints on lower-mantle composition are fundamental to understand the accretion, differ...
In modern geoscience, mounting evidence in support of large-scale lateral variations in the composit...
In modern geoscience, mounting evidence in support of large-scale lateral variations in the composit...
In modern geoscience, mounting evidence in support of large-scale lateral variations in the composit...
The structure of mantle convection will greatly influence the generation and the survival of composi...
We review the present state of our understanding of mantle convection with respect to geochemical a...
The structure of mantle convection will greatly influence the generation and the survival of compos...
On a global scale basalts from mid-ocean ridges are strikingly more homogeneous than basalts from in...
On a global scale basalts from mid-ocean ridges are strikingly more homogeneous than basalts from in...
On a global scale basalts from mid-ocean ridges are strikingly more homogeneous than basalts from in...
The Earth's D'' layer, the lowermost 200-300 km of the mantle, is perhaps as rich in chemical, phase...
We review the present state of our understanding of mantle convection with respect to geochemical a...
The Earth's D'' layer, the lowermost 200-300 km of the mantle, is perhaps as rich in chemical, phase...
In the past decade, tomographic imaging has revealed that trajectories of mantle convection are more...
In the past decade, tomographic imaging has revealed that trajectories of mantle convection are more...
Improved constraints on lower-mantle composition are fundamental to understand the accretion, differ...
In modern geoscience, mounting evidence in support of large-scale lateral variations in the composit...
In modern geoscience, mounting evidence in support of large-scale lateral variations in the composit...
In modern geoscience, mounting evidence in support of large-scale lateral variations in the composit...
The structure of mantle convection will greatly influence the generation and the survival of composi...
We review the present state of our understanding of mantle convection with respect to geochemical a...
The structure of mantle convection will greatly influence the generation and the survival of compos...
On a global scale basalts from mid-ocean ridges are strikingly more homogeneous than basalts from in...
On a global scale basalts from mid-ocean ridges are strikingly more homogeneous than basalts from in...
On a global scale basalts from mid-ocean ridges are strikingly more homogeneous than basalts from in...
The Earth's D'' layer, the lowermost 200-300 km of the mantle, is perhaps as rich in chemical, phase...
We review the present state of our understanding of mantle convection with respect to geochemical a...
The Earth's D'' layer, the lowermost 200-300 km of the mantle, is perhaps as rich in chemical, phase...