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Moore, K. R. (2012) Experimental study in the Na₂O–CaO–MgO–Al₂O₃–SiO₂–CO₂ system at 3 GPa: the effect of sodium on mantle melting to carbonate-rich liquids and implications for the petrogenesis of silicocarbonatites. Mineralogical Magazine, 76 (2) 285-309 doi:10.1180/minmag.2012.076.2.04

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Reference Type	Journal (article/letter/editorial)
Title	Experimental study in the Na₂O–CaO–MgO–Al₂O₃–SiO₂–CO₂ system at 3 GPa: the effect of sodium on mantle melting to carbonate-rich liquids and implications for the petrogenesis of silicocarbonatites
Journal	Mineralogical Magazine
Authors	Moore, K. R.		Author
Year	2012 (April)	Volume	76
Issue	2
Publisher	Mineralogical Society
DOI	doi:10.1180/minmag.2012.076.2.04Search in ResearchGate
	Generate Citation Formats
Mindat Ref. ID	244220	Long-form Identifier	mindat:1:5:244220:8
GUID	0
Full Reference	Moore, K. R. (2012) Experimental study in the Na₂O–CaO–MgO–Al₂O₃–SiO₂–CO₂ system at 3 GPa: the effect of sodium on mantle melting to carbonate-rich liquids and implications for the petrogenesis of silicocarbonatites. Mineralogical Magazine, 76 (2) 285-309 doi:10.1180/minmag.2012.076.2.04
Plain Text	Moore, K. R. (2012) Experimental study in the Na2O–CaO–MgO–Al2O3–SiO2–CO2 system at 3 GPa: the effect of sodium on mantle melting to carbonate-rich liquids and implications for the petrogenesis of silicocarbonatites. Mineralogical Magazine, 76 (2) 285-309 doi:10.1180/minmag.2012.076.2.04
Abstract/Notes	AbstractMelt compositions in equilibrium with peridotite assemblages were determined in the analogue system Na2O–CaO–MgO–Al2O3–SiO2–CO2 at 3 GPa with Ca/Ca + Mg = 0.56–0.43 and up to 6 wt.% Na2O. There is a greater compositional range generated isobarically over a larger temperature interval than in a sodium-absent system: increasing sodium content drives liquids to compositions with lower CaO and higher SiO2 concentrations. A positive correlation between silica and Na2O content of liquids produced at constant temperature is due to the depolymerization of silicate tetrahedra in the presence of monovalent cations, as in the volatile-free system. Liquids with Na2O >6 wt.% occur in association with wehrlites as the composition of diopsidic pyroxene expands towards enstatite with addition of Na2O, decreasing the orthopyroxene content of peridotite. The orthopyroxene-out curve intersects an enriched mantle solidus at 3 GPa where near-solidus liquids have Na2O = 7 1.5 wt.%. Sodium partitioning between a metaluminous liquid and clinopyroxene follows the jadeite partitioning models calculated for the dry silicate system but sodium partitions into peralkaline carbonated liquids as both the pyroxene and the carbonate molecules. The peralkaline liquids generated are essentially carbonated silicate melts that are analogous to silica-bearing carbonatites and silicocarbonatites from a range of possible metasomatized mantle sources.

See Also

These are possibly similar items as determined by title/reference text matching only.

	Biggar, G. M., Humphries, D. J. (1981) The plagioclase, forsterite, diopside, liquid equilibrium in the system CaO-Na₂O-MgO-Al₂O₃-SiO₂. Mineralogical Magazine, 44 (335) 309-314 doi:10.1180/minmag.1981.044.335.11
	Triboulet, Claude (1976) Experimental study of clay mineral, greenschist, and low-pressure amphibole facies in the system Na₂O-Al₂O₃-MgO-SiO₂-H₂O. Mineralogical Magazine, 40 (316) 875-886 doi:10.1180/minmag.1976.040.316.09
	Konzett, J. (1994) Phase Relations and Chemistry of Richteritic Amphiboles in the System K2O-Na2O-CaO-MgO-Al2O3-SiO2-H2O (KNCMASH) Mineralogical Magazine, 58 (1) 491-492 doi:10.1180/minmag.1994.58a.1.255
	Biggar, Gordon M. (1984) The composition of diopside solid solutions, and of liquids, in equilibrium with forsterite, plagioclase, and liquid in the system Na₂O-CaO-MgO-Al₂O₃-SiO₂ and in remelted rocks from 1 bar to 12 kbar. Mineralogical Magazine, 48 (349) 481-494 doi:10.1180/minmag.1984.048.349.02
	LIU, XI, O'NEILL, HUGH ST. C., BERRY, ANDREW J. (2006) The Effects of Small Amounts of H2O, CO2 and Na2O on the Partial Melting of Spinel Lherzolite in the System CaO–MgO–Al2O3–SiO2 ± H2O ± CO2 ± Na2O at 1·1 GPa. Journal of Petrology, 47 (2) 409-434 doi:10.1093/petrology/egi081
	*Matsui, M. (1994) A Transferable Interatomic Potential Model for Crystals and Melts in the System CaO-MgO-Al2O3-SiO2. Mineralogical Magazine, 58 (2) 571-572 doi:10.1180/minmag.1994.58a.2.34*
	*Davies, A. (1994) The Thermodynamics of Mineral-Melt Equilibria in the System CaO-MgO-Al2O3-SiO2. Mineralogical Magazine, 58 (1) 213-214 doi:10.1180/minmag.1994.58a.1.113*
	Keshav, S., Gudfinnsson, G. H. (2014) Melting phase equilibria of model carbonated peridotite from 8 to 12 GPa in the system CaO-MgO-Al2O3-SiO2-CO2 and kimberlitic liquids in the Earth's upper mantle. American Mineralogist, 99 (5) 1119-1126 doi:10.2138/am.2014.4826
	Biggar, G. M., O'Hara, M. J. (1972) Melilite crystallization in the system CaO-MgO-Al₂O₃-SiO₂. Mineralogical Magazine, 38 (300) 918-925 doi:10.1180/minmag.1972.038.300.02
	*Biggar, G. M. (1985) Calcium-poor pyroxenes: phase relations in the system CaO MgO-Al₂O₃-SiO₂. Mineralogical Magazine, 49 (350) 49-58 doi:10.1180/minmag.1985.049.350.06*
	Biggar, G. M., O'Hara, M. J. (1969) Temperature control and calibration in quench furnaces and some new temperature measurements in the system CaO–MgO–Al₂O₃–SiO₂. Mineralogical Magazine, 37 (285) 1-15 doi:10.1180/minmag.1969.037.285.01

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