The Liquid Line of Descent of Anhydrous, Mantle-Derived, Tholeiitic Liquids by Fractional and Equilibrium Crystallization--an Experimental Study at 1{middle dot}0 GPa

doi:10.1093/petrology/egh042

Journal of Petrology Advance Access originally published online on August 19, 2004
Journal of Petrology 2004 45(12):2369-2388; doi:10.1093/petrology/egh042

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The Liquid Line of Descent of Anhydrous, Mantle-Derived, Tholeiitic Liquids by Fractional and Equilibrium Crystallization—an Experimental Study at 1·0 GPa

SAMUEL VILLIGER¹^,*, PETER ULMER¹, OTHMAR MÜNTENER²^, and ALAN BRUCE THOMPSON¹

¹ DEPARTMENT OF EARTH SCIENCES, ETH ZURICH, SONNEGGSTRASSE 5, 8092 ZURICH, SWITZERLAND
² INSTITUTE OF GEOLOGY, UNIVERSITY OF NEUCHÂTEL, RUE EMILE-ARGAND 11, 2007 NEUCHÂTEL, SWITZERLAND

Two series of anhydrous experiments have been performed in anend-loaded piston cylinder apparatus on a primitive, mantle-derivedtholeiitic basalt at 1·0 GPa pressure and temperaturesin the range 1060–1330°C. The experimental data provideconstraints on phase equilibria, and solid and liquid compositionsalong the liquid line of descent of primary basaltic magmasdifferentiating in storage reservoirs located at the base ofthe continental crust. The first series are equilibrium crystallizationexperiments on a single basaltic bulk composition; the secondseries are fractionation experiments where near-perfect fractionalcrystallization was approached in a stepwise manner using 30°Ctemperature steps and starting compositions corresponding tothe liquid composition of the previous, higher-temperature glasscomposition. Liquids in the fractional crystallization experimentsevolve with progressive SiO₂ increase from basalts to dacites,whereas the liquids in the equilibrium crystallization experimentsremain basaltic and display only a moderate SiO₂ increase accompaniedby more pronounced Al₂O₃ enrichment. The principal phase equilibriacontrols responsible for these contrasting trends are suppressionof the peritectic olivine + liquid = opx reaction and earlierplagioclase saturation in the fractionation experiments comparedwith the equilibrium experiments. Both crystallization processeslead to the formation of large volumes of ultramafic cumulatesrelated to the suppression of plagioclase crystallization relativeto pyroxenes at high pressures. This is in contrast to low-pressurefractionation of tholeiitic liquids, where early plagioclasesaturation leads to the production of troctolites followed by(olivine-) gabbros at an early stage of differentiation.

KEY WORDS: liquid line of descent; tholeiitic magmas; equilibrium crystallization; fractional crystallization

^* Corresponding author. Telephone: 0041 1 632 78 02. E-mail: sam{at}erdw.ethz.ch

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