Melting Behavior of Simplified Lherzolite in the System CaO-MgO-Al2O3-SiO2-Na2O from 7 to 35 kbar

Abstract

Phase equilibrium data have been collected for isobarically univariant melting of simplified Iherzolite compositions in the system CaO-MgO-Al₂O₃ SiO₂-Na₂O over a pressure range of 7–35 kbar. These data permit the melting behavior of a wide variety of model lherzolite compositions to be determined quantitatively by algebraic methods. Two P-T univariant melting reactions, corresponding to plagioclase to spinel lherzolite and spinel to garnet lherzolite, are identified as peritectic-type transitions and have positive Clapeyron slopes. The univariant curves move to higher pressures and temperatures with increasing Na₂O in the liquid. The effect of the univariant curves on melting is to produce low-temperature regions and isobarically invariant melting intervals along lherzolite solidi. In the plagioclase lherzolite stability field, melting of four-phase model lherzolite is pseudo-invariant, occurring over small temperature intervals (∼5°C) and producing liquids that are quartz tholeiites at 8 kbar. Calculated equilibrium constants for plagioclase-liquid equilibria show both temperature and pressure dependence. Plagioclase with anorthite content (AN) >90 mol%, as observed in some oceanic basalts, can crystallize from liquids with 2O. Melting of spinel lherzolite is not pseudo-invariant but occurs over large temperature intervals (15–60 °C), producing a wide range in liquid compositions, from alkali basalts and alkali picrites at low to moderate degrees of melting (10%). On the basis of limited data in the garnet Iherzolite field, melts from garnet lherzolite are more silica rich for a given degree of melting than melts from spinel lherzolite, and liquid compositions trend toward enstatite with increase in pressure. Source fertility (especially Na₂O content) has a strong control on the temperature of melting and liquid composition. Less fertile sources produce smaller amounts of liquids richer in normative silica. For certain bulk compositions (high SiO₂ and low Al₂O₃), spinel is not a stable phase along the lherzolite solidus.