Diffusion of Ca and Mg in calcite

The self-diffusion of Ca and the tracer diffusion of Mg in calcite have bee n measured experimentally using isotopic tracers of Mg-25 and Ca-44. Natura l single crystals of calcite were coated with a thermally sputtered oxide t hin film and then annealed in a CO2 gas at 1 atm total pressure and tempera tures from 550 to 800 degrees C. Diffusion coefficient values were derived from the depth profiles obtained by ion microprobe analysis. The resultant activation energies for Mg tracer diffusion and Ca. self-diffusion are, res pectively: E-a(Mg) = 284 +/- 74 kJ/mol and E-a(Ca) = 271 +/- 80 kJ/mol. For the temperature ranges in these experiments, the diffusion of Mg is faster than Ca. The results are generally consistent in magnitude with divalent c ation diffusion rates obtained in previous studies, and provide a means of interpreting the thermal histories of carbonate minerals, the mechanism of dolomitization, and other diffusion-controlled processes. The results indic ate that cation diffusion in calcite is relatively slow and cations are the rate-limiting diffusing species for the deformation of calcite and carbona te rucks. Application of the calcite-dolomite geothermometer to metamorphic assemblages will be constrained by cation diffusion and cooling rates. The direct measurement of Mg tracer diffusion in calcite indicates that dolomi tization is unlikely to be accomplished by Mg diffusion in the solid state but by a recrystallization process.