Effects of surface orientation, fluid chemistry and mechanical polishing on the variability of dolomite dissolution rates

Although experimental data and observations indicate a tendency of dolomite faces to reach a low-energy topography over the course of the reaction, the evolution of the entire crystal morphology depends also on the reactivity of edge and corner regions, whose contribution to measured rates is not generally taken into account by laboratory experiments. The study of time-dependent mineral morphology and reactivity requires an integrated approach of kinetic modeling and experimentation, where measured rate variance and observed reaction mechanisms represent fundamental parameters for the improvement of geochemical models in predicting long-term reaction rates in a wide range of environmental conditions.