The Significance of Multiple Saturation Points in the Context of Polybaric Near-fractional Melting |
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Authors: | ASIMOW PAUL D; LONGHI JOHN |
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Institution: | 1 DIVISION OF GEOLOGICAL AND PLANETARY SCIENCES 170-25, CALIFORNIA INSTITUTE OF TECHNOLOGY, PASADENA, CA 91125, USA
2 LAMONTDOHERTY EARTH OBSERVATORY, PALISADES, NY 10964, USA |
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Abstract: | Experimental petrologists have successfully located basalticliquid compositions parental to mid-ocean ridge basalt thatare, within experimental resolution, multiply saturated withthree-phase harzburgite or four-phase lherzolite assemblageson their liquidus at some elevated pressure. Such an experimentalresult is a necessary consequence of any paradigm in which eruptedbasalts derive from single-batch primary liquids that equilibratewith a mantle residue and undergo no subsequent magma mixingbefore differentiation and eruption. Here we investigate whether,conversely, such evidence of multiple saturation is sufficientto exclude dynamic melting models wherein increments of meltare mixed after segregation from residues, during melt transportor in magma chambers. Using two independent models of crystalliquidequilibria to simulate polybaric near-fractional peridotitemelting, we find that aggregate liquids from such melting processescan display near-intersections of liquidus surfaces too closeto distinguish experimentally from exact multiple saturationpoints. Given uncertainties in glass compositions, fractionationcorrections, experimental temperature and pressure conditions,and achievement of equilibrium, these results suggest that polybaricmixtures can in fact masquerade as mantle-equilibrated single-batchprimary liquids. Multiple saturation points on the liquidussurfaces of primitive basalts do, however, preserve informationabout the average pressure of extraction of their constituentincrements of liquid. KEY WORDS: mantle melting; basaltic volcanism; experimental igneous petrology; thermodynamic modelling; inverse method |
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Keywords: | : mantle melting basaltic volcanism experimental igneous petrology thermodynamic modelling inverse method |
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