Add to ORKGA model for the generation of intermediate and silicic igneous rocks is presented, based on experimental data and numerical modelling. The model is directed at subduction-related magmatism, but has general applicability to magmas generated in other plate tectonic settings, including continental rift zones. In the model mantle-derived hydrous basalts emplaced as a succession of sills into the lower crust generate a deep crustal hot zone. Numerical modelling of the hot zone shows that melts are generated from two distinct sources; partial crystallization of basalt sills to produce residual H2O-rich melts; and partial melting of pre-existing crustal rocks. Incubation times between the injection of the first sill and generation of residual melt...
Magma genesis, migration, and eruption have played prominent roles in the chemical differentiation o...
The magmatic processes occurring in the lowermost arc crust play a major role in the evolution of ma...
Magma genesis, migration, and eruption have played prominent roles in the chemical differentiation o...
A model for the generation of intermediate and silicic igneous rocks is presented, based on experime...
A Deep Hot Zone develops when numerous mafic sills are repeatedly injected at Moho depth or are scat...
A number of currently popular models for the genesis of evolved arc-magmas (from basaltic andesite t...
The evolution of crustal magmatic systems is incompletely understood, as most studies are limited ei...
In the last decade there has been a considerable effort to better understand the joint evolution of ...
The magmatic processes occurring in the lowermost arc crust play a major role in the evolution of ma...
Chemical heterogeneities in the Earth’s mantle, such as subducted sediments and oceanic crust, along...
We address under what conditions a magma generated by partial melting at 100 km depth in the mantle ...
When basalt magmas are emplaced into continental crust, melting and generation of silicic magma can ...
Understanding the spatial and temporal evolution of melt distribution in the crust is crucial in pro...
Diverse explanations exist for the large-volume catastrophic eruptions that formed the Bishop Tuff o...
Magma genesis, migration, and eruption have played prominent roles in the chemical differentiation o...
Magma genesis, migration, and eruption have played prominent roles in the chemical differentiation o...
The magmatic processes occurring in the lowermost arc crust play a major role in the evolution of ma...
Magma genesis, migration, and eruption have played prominent roles in the chemical differentiation o...
A model for the generation of intermediate and silicic igneous rocks is presented, based on experime...
A Deep Hot Zone develops when numerous mafic sills are repeatedly injected at Moho depth or are scat...
A number of currently popular models for the genesis of evolved arc-magmas (from basaltic andesite t...
The evolution of crustal magmatic systems is incompletely understood, as most studies are limited ei...
In the last decade there has been a considerable effort to better understand the joint evolution of ...
The magmatic processes occurring in the lowermost arc crust play a major role in the evolution of ma...
Chemical heterogeneities in the Earth’s mantle, such as subducted sediments and oceanic crust, along...
We address under what conditions a magma generated by partial melting at 100 km depth in the mantle ...
When basalt magmas are emplaced into continental crust, melting and generation of silicic magma can ...
Understanding the spatial and temporal evolution of melt distribution in the crust is crucial in pro...
Diverse explanations exist for the large-volume catastrophic eruptions that formed the Bishop Tuff o...
Magma genesis, migration, and eruption have played prominent roles in the chemical differentiation o...
Magma genesis, migration, and eruption have played prominent roles in the chemical differentiation o...
The magmatic processes occurring in the lowermost arc crust play a major role in the evolution of ma...
Magma genesis, migration, and eruption have played prominent roles in the chemical differentiation o...