Abstract

The effect of various amounts of CO2 on the solidus of H2O–CO2-bearing peridotite was examined by determining the composition of H2O–CO2-bearing fluids and melts in equilibrium with garnet peridotite at 4–6GPa and 900–1100°C. Two capsules were placed in a rocking multi-anvil apparatus in each experiment. Both capsules contained a fertile peridotite with 10wt% H2O, one with 1 (CLZ1) and the other with 5wt% CO2 (CLZ5). In both capsules a diamond trap was placed on one end of the capsule as a fluid/melt trap. The H2O and CO2 content in the fluid or melt trapped in between the diamonds were measured using the quartz-tube-system technique by releasing the volatiles through infrared gas analyzer. The total dissolved solids in these phases were determined using the cryogenic laser-ablation – inductive couple plasma – mass spectrometry technique. The residual lherzolite consists of olivine, orthopyroxene, ±clinopyroxene, garnet, and ±magnesite as carbonate phase. The solidus of CLZ1 peridotite was located between 900 and 1000°C at 4GPa and between 1000 and 1100°C at 5 and 6GPa. CLZ5 peridotite melts below 900°C at 4GPa and between 900 and 1000°C at 5 and 6GPa. The results demonstrate a decrease in melting temperature of hydrous peridotite at pressures between 4 and 6GPa with increasing amount of CO2.The H2O–CO2-bearing fluids found in this study at 900–1000°C are similar in composition to low-Mg carbonatitic to silicic high-density fluids found in fluid inclusions in diamonds. With increasing temperature, the melts approach type II kimberlites. We propose that H2O–CO2-induced partial melting of metasomatized garnet lherzolite at 4–6GPa is a possible origin for group II kimberlites.

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