Computer Science
Scientific paper
Sep 1991
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1991gecoa..55.2689f&link_type=abstract
Geochimica et Cosmochimica Acta, vol. 55, Issue 9, pp.2689-2694
Computer Science
16
Scientific paper
The high pressure and temperature stabilities of fluor-pargasite, fluor-K-richterite, and hydroxyK-richterite have been determined at pressures of 35 to 50 kbar pressure. Fluor-pargasite is stable to 1300°C at 35 kbar, and its thermal stability decreases sharply at higher pressures. In comparison with the hydroxypargasite endmember, it is more stable by 10-15 kbar and 250°C. Both the hydroxy- and fluor-K-richterite endmembers are stable throughout the pressure range studied, and the temperature of breakdown increases towards higher pressures. At 35 kbar fluor-K-richterite is stable to 100°C higher than hydroxy-K-richterite, and this difference increases to 200°C at 50 kbar. The differing temperature stabilities of fluor-and hydroxyamphiboles carries important implications for partial melting processes in the Earth's mantle and lower crust: the hydroxy component will enter initial melt fractions but the amphibole will remain present in the residue due to the increasing importance of the fluor-endmember. Similar differences between the melting temperatures of the F-and OH-endmembers of mica and apatite are expected. This solid-solution melting behaviour will result in a large temperature range of melting of such F+OH-bearing minerals within the mantle and will increase the pressure-temperature range of hydrous mineral breakdown in subduction zones.
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