Underplating, Anatexis and Assimilation of Metacarbonate: A Possible Source for Large CO2 Fluxes in the Deep Crust
Abstract
Recent models for granulite petrogenesis have involved infiltrative streaming of CO2 derived from deep-seated sources, removal of H2O in locally generated silicate melts, or various combinations of these two processes. All these models require a heat source of some type to generate the high crustal temperatures associated with anatexis and granulite-grade metamorphism, and this most likely takes the form of mantle-derived basaltic magma that is either underplated or intruded into the lower continental crust. Huppert and Sparks have recently shown that such underplating is likely to cause rapid, very large-scale melting of the overlying crust (roof rock) over time scales of only a few hundred years. This model is readily applicable to the granulite terrane of Southern India where metacarbonates occur within the deeper parts of the section including the amphibolite-granulite transition zone. Furthermore, it obviates the need to remove low melt fractions from deep crustal rocks as a principal dehydration mechanism; compaction theory has shown this to be a very sluggish process that is unlikely to be important over typical geological time scales. It also avoids any mechanism involving the subduction of large volumes of sedimentary carbonate into the mantle to provide a CO2 source.
- Publication:
-
Workshop on the Deep Continental Crust of South India
- Pub Date:
- 1988
- Bibcode:
- 1988dcc..work..188W
- Keywords:
-
- Assimilation;
- Carbon Dioxide;
- Carbonates;
- Earth Crust;
- Geochronology;
- India;
- Magma;
- Melting;
- Metamorphism (Geology);
- Petrology;
- Silicates;
- Subduction (Geology);
- Basalt;
- Dehydration;
- Growth;
- High Temperature;
- Mineralogy;
- Water;
- Geophysics