Add to ORKGThe trace element concentration patterns of continental and ocean island basalts and of mid-ocean ridge basalts are complementary. The relative sizes of the source regions for these fundamentally different basalt types can be estimated from the trace element enrichment-depletion patterns. Their combined volume occupies most of the mantle above the 670 kilometer discontinuity. The source regions separated as a result of early mantle differentiation and crystal fractionation from the resulting melt. The mid-ocean ridge basalts source evolved from an eclogite cumulate that lost its late-stage enriched fluids at various times to the shallower mantle and continental crust. The mid-ocean ridge basalts source is rich in garnet and clinopyroxene, w...
We discuss the concept of components in the Earth’s mantle starting from a petrological and geochemi...
Geophysical evidence and numerical models of mantle stirring imply the source of mid-ocean ridge bas...
Oceanic island basalts (OIBs) have been central to understanding evolution of the Earth and mantle b...
The trace element concentration patterns of continental and ocean island basalts and of mid-ocean ri...
The Earth's mantle is known to be heterogeneous at different scales, which has been generally linked...
The presence in the Earth’s mantle of even small amounts of water and other volatiles has major effe...
Melts ascending from deep reservoirs and trapped beneath thick lithosphere exchange heat with and pa...
The isotopic compositions of oceanic island basalts erupted at the Earth’s surface can be used to di...
Oceanic basaltic rocks erupted in different tectonic environments in the northeast Pacific define a ...
A scheme of mantle evolution is proposed that involves extensive (~25%) partial melting of primitiv...
Small-scale distribution of basaltic compositions along the mid-ocean ridge crests suggests that the...
Basaltic magmatism that builds intra-plate ocean islands is often considered to be genetically assoc...
Basalt, eclogite, and harzburgite, differentiation products of the Earth, appear to be trapped in th...
The magmatic layers of the oceanic crust are created at constructive plate margins by partial meltin...
AbstractIn order to discuss material recycling within the mantle, isotopic variability of the young ...
We discuss the concept of components in the Earth’s mantle starting from a petrological and geochemi...
Geophysical evidence and numerical models of mantle stirring imply the source of mid-ocean ridge bas...
Oceanic island basalts (OIBs) have been central to understanding evolution of the Earth and mantle b...
The trace element concentration patterns of continental and ocean island basalts and of mid-ocean ri...
The Earth's mantle is known to be heterogeneous at different scales, which has been generally linked...
The presence in the Earth’s mantle of even small amounts of water and other volatiles has major effe...
Melts ascending from deep reservoirs and trapped beneath thick lithosphere exchange heat with and pa...
The isotopic compositions of oceanic island basalts erupted at the Earth’s surface can be used to di...
Oceanic basaltic rocks erupted in different tectonic environments in the northeast Pacific define a ...
A scheme of mantle evolution is proposed that involves extensive (~25%) partial melting of primitiv...
Small-scale distribution of basaltic compositions along the mid-ocean ridge crests suggests that the...
Basaltic magmatism that builds intra-plate ocean islands is often considered to be genetically assoc...
Basalt, eclogite, and harzburgite, differentiation products of the Earth, appear to be trapped in th...
The magmatic layers of the oceanic crust are created at constructive plate margins by partial meltin...
AbstractIn order to discuss material recycling within the mantle, isotopic variability of the young ...
We discuss the concept of components in the Earth’s mantle starting from a petrological and geochemi...
Geophysical evidence and numerical models of mantle stirring imply the source of mid-ocean ridge bas...
Oceanic island basalts (OIBs) have been central to understanding evolution of the Earth and mantle b...