The pMELTS: A revision of MELTS for improved calculation of phase relations and major element partitioning related to partial melting of the mantle to 3 GPa
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Thermal history of Mars inferred from orbital geochemistry of volcanic provinces.Volcanic-plutonic parity and the differentiation of the continental crust.The importance of water to oceanic mantle melting regimes.Magmatic pulse driven by sea-level changes associated with the Messinian salinity crisis.Contributions of Slab Fluid, Mantle Wedge and Crust to the Origin of Quaternary Lavas in the NE Japan ArcDisequilibrium Dihedral Angles in Layered Intrusions: a Microstructural Record of FractionationPrimary Silica-rich Picrite and High-Ca Boninite Melt Inclusions in Pyroxenite Veins from the Kamchatka Sub-arc MantleThe origin of coarse garnet peridotites in cratonic lithosphere: new data on xenoliths from the Udachnaya kimberlite, central SiberiaA new petrogenetic model for low-Ca boninites: Evidence from veined sub-arc xenoliths on melt-mantle interaction and melt fractionationMeltMigrator: A MATLAB-based software for modeling three-dimensional melt migration and crustal thickness variations at mid-ocean ridges following a rules-based approachStability of arc lower crust: Insights from the Talkeetna arc section, south central Alaska, and the seismic structure of modern arcsThe effect of H2O on partial melting of garnet peridotite at 3.5 GPaLibrary of Experimental Phase Relations (LEPR): A database and Web portal for experimental magmatic phase equilibria dataActivity-composition relations for the calculation of partial melting equilibria in metabasic rocksFormation of Highly Refractory Dunite by Focused Percolation of Pyroxenite-Derived Melt in the Balmuccia Peridotite Massif (Italy)The Petrology and Geochemistry of St. Helena Alkali Basalts: Evaluation of the Oceanic Crust-recycling Model for HIMU OIBEffect of chlorine on near-liquidus phase equilibria of an Fe–Mg-rich tholeiitic basaltDifferential motion between upper crust and lithospheric mantle in the central Basin and RangeFerroan Dolomitization by Seawater Interaction with Mafic Igneous Dikes and Carbonate Host Rock at the Latemar Platform, Dolomites, Italy: Numerical Modeling of Spatial, Temporal, and Temperature Data
P2860
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P2860
The pMELTS: A revision of MELTS for improved calculation of phase relations and major element partitioning related to partial melting of the mantle to 3 GPa
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована в травні 2002
@uk
name
The pMELTS: A revision of MELT ...... melting of the mantle to 3 GPa
@en
The pMELTS: A revision of MELT ...... melting of the mantle to 3 GPa
@nl
type
label
The pMELTS: A revision of MELT ...... melting of the mantle to 3 GPa
@en
The pMELTS: A revision of MELT ...... melting of the mantle to 3 GPa
@nl
prefLabel
The pMELTS: A revision of MELT ...... melting of the mantle to 3 GPa
@en
The pMELTS: A revision of MELT ...... melting of the mantle to 3 GPa
@nl
P2093
P356
P1476
The pMELTS: A revision of MELT ...... melting of the mantle to 3 GPa
@en
P2093
Marc M. Hirschmann
Mark S. Ghiorso
Victor C. Kress
P356
10.1029/2001GC000217
P577
2002-05-01T00:00:00Z