Lower crustal granulites, which constitute the base of all continents, belong to two series: high-pressure granulites generated by crustal thickening (subduction) and (ultra)high-temperature granulites associated with crustal extension. Fluid inclusions and metasomatic features indicate that the latter were metamorphosed in the presence of low-water activity fluids (high-density CO2 and brines), which have invaded the lower crust at peak metamorphic conditions (fluid-assisted granulite metamorphism). High-pressure and (ultra)high-temperature granulites commonly occur along elongated paired belts. They were formed, from the early Proterozoic onwards, during a small number of active periods lasting a few hundreds of my. These periods were sep...
High-grade dehydration of amphibolite-facies rocks to granulite-facies is a process that can involve...
This item is only available electronically.Exhumed deep crust is rare and exposures that preserve bo...
The Southern Marginal Zone of the Limpopo Complex documents strong evidence that CO2-rich (XCO2=0.7–...
Lower crustal granulites, which constitute the base of all continents, belong to two series: high-pr...
The formation of continents involves a combination of magmatic and metamorphic processes. These proc...
Supercontinents are a unique feature of the planet Earth. A brief review of supercontinents formed s...
At peak granulite-facies metamorphic conditions, lower continental crust is arguably fluxed by large...
AbstractAt peak granulite-facies metamorphic conditions, lower continental crust is arguably fluxed ...
The various models for the nature and origin of fluids in granulite facies metamorphism were summari...
AbstractThe formation of continents involves a combination of magmatic and metamorphic processes. Th...
Since the discovery of CO2 fluid inclusions in granulites, the role of fluids in the formation of th...
Starting from the hypothesis that the lower continental crust is dominated by granulites, some essen...
Abstract Granulites constitute a major part of the (lower) continental crust, occurring on a regiona...
AbstractHigh-grade dehydration of amphibolite-facies rocks to granulite-facies is a process that can...
The fluid phase plays an important role in many crustal processes, such as metamorphism, metasomatis...
High-grade dehydration of amphibolite-facies rocks to granulite-facies is a process that can involve...
This item is only available electronically.Exhumed deep crust is rare and exposures that preserve bo...
The Southern Marginal Zone of the Limpopo Complex documents strong evidence that CO2-rich (XCO2=0.7–...
Lower crustal granulites, which constitute the base of all continents, belong to two series: high-pr...
The formation of continents involves a combination of magmatic and metamorphic processes. These proc...
Supercontinents are a unique feature of the planet Earth. A brief review of supercontinents formed s...
At peak granulite-facies metamorphic conditions, lower continental crust is arguably fluxed by large...
AbstractAt peak granulite-facies metamorphic conditions, lower continental crust is arguably fluxed ...
The various models for the nature and origin of fluids in granulite facies metamorphism were summari...
AbstractThe formation of continents involves a combination of magmatic and metamorphic processes. Th...
Since the discovery of CO2 fluid inclusions in granulites, the role of fluids in the formation of th...
Starting from the hypothesis that the lower continental crust is dominated by granulites, some essen...
Abstract Granulites constitute a major part of the (lower) continental crust, occurring on a regiona...
AbstractHigh-grade dehydration of amphibolite-facies rocks to granulite-facies is a process that can...
The fluid phase plays an important role in many crustal processes, such as metamorphism, metasomatis...
High-grade dehydration of amphibolite-facies rocks to granulite-facies is a process that can involve...
This item is only available electronically.Exhumed deep crust is rare and exposures that preserve bo...
The Southern Marginal Zone of the Limpopo Complex documents strong evidence that CO2-rich (XCO2=0.7–...