ANHYDROUS PARTIAL MELTING OF AN IRON-RICH MANTLE .1. SUBSOLIDUS PHASE ASSEMBLAGES AND PARTIAL MELTING PHASE-RELATIONS AT 10 TO 30 KBAR

Anhydrous partial melting experiments, at 10 to 30 kbar from solidus to near liquidus temperature, have been performed on an iron-rich martian mantle composition, DW. The DW subsolidus assemblage from less-than-or-equal-to 5 kbar to at least 24 kbar is a spinel lherzolite. At 25 kbar garnet is stable at the solidus along with spinel. The clinopyroxene stable on the DW solidus at and above 10 kbar is a pigeonitic clinopyroxene. Pigeonitic clinopyroxene is the first phase to melt out of the spinel lherzolite assemblage at less than 20-degrees-C above the solidus. Spinel melts out of the assemblage about 50-degrees-C above the solidus followed by a 150-degrees to 200-degrees-C temperature interval where melts are in equilibrium with orthopyroxene and olivine. The temperature interval over which pigeonitic clinopyroxene melts out of an iron-rich spinel lherzolite assemblage is smaller than the temperature interval over which augite melts out of an iron-poor spinel lherzolite assemblage. The dominant solidus assemblage in the source regions of the Tharsis plateau, and for a large percentage of the martian mantle, is a spinel Iherzolite.