Abstract:
The P-T conditions of both equilibria were determined precisely by reversal experiments in a piston-cylinder apparatus. On the basis of 8 experiments. brackets for the rutile-magnesite-geikielite equilibrium are 7.0-7.1 kbar at 800°C, 8.6-8.7 kbar at 850°C, and 10.5-10.7 kbar at 900°C. On the basis of 9 experiments. brackets for the zircon-magnesite-baddeleyite-forsterite equilibrium are 7.1-7.7 kbar at 800°C,fss 9.2-9.4 kbar at 850°C, and 10.7-10.9 kbar at 900°C. Considering experimental uncertainties in P (±300 bars) and T (±3 °C), equilibrium curves calculated from both the Berman and the Holland and Powell databases pass through all brackets. Molar Gibbs free energy of formation from the elements at 1 bar and 298 K for geikielite and zircon, derived from the experiments and consistent with the Berman database, are -1481.94 ± 0.67 kJ and -1917.54 ± 1.25 kJ, respectively. Corresponding values consistent with the Holland and Powell database are -1479.30 ± 0.74 kJ and -1918.47 ± 1.49 kJ. Application of the two equilibria indicate that: (1) the mole fraction of CO2 in fluid was 0.54-1.00 when geikielite and baddeleyite formed during contact metamorphism of siliceous dolomites in the Ballachulish aureole, Scotland; (2) the activity of CO2 could have been as low as 2.10-5 during ultra-high pressure metamorphism of magnesite-bearing ecologites; and (3) the activity of CO2 was <0.18 during one instance of mantle metasomatism.
