Home – Home – Jornals – Russian Geology and Geophysics 2016 number 5

Thermodynamic analysis of experimental data has demonstrated that FeO activity in silicate melts identical in composition to natural magmas can be described by the regular-solution model, which takes into account interactions of all cations with Si and interaction of Ca with Al. Using this model, we propose an oxygen barometer for spinel + magma phase association. In contrast to the earlier proposed methods for estimation of oxygen chemical potential, this barometer can work in the PT-domain close to the liquidus of magmatic process. The new oxygen barometer has been applied to magmas related to mantle plume activity, including Siberian meimechites, Hawaiian picrites, and picrites from the Emeishan large igneous province (LIP) and Greenland. We have shown that most magmas related to the activity of deep-seated mantle plumes are characterized by a higher relative chemical potential of oxygen than magmas of mid-ocean ridges. Thermodynamically calculated stability fields of rocks with different carbon-containing phases show that under PT-conditions of the lower mantle, the material of ascending mantle plumes is characterized by relatively elevated oxygen fugacity. Formation of diamond in the lower mantle requires more oxidizing conditions as compared with the major part of this geosphere, where the presence of Fe-Ni alloy is predicted. We have put forward a hypothesis that the main reason for the oxygen fugacity increase in particular domains of the lower mantle is a shift of redox equilibria toward a decrease in the amount of Fe-Ni alloy, up to its disappearance, with temperature growth.