Partial melting of secondary pyroxenite at 1 and 1.5 GPa, and its role in upwelling heterogeneous mantle

Borghini G.; Fumagalli P.; Rampone E.

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Partial melting of secondary pyroxenite at 1 and 1.5 GPa, and its role in upwelling heterogeneous mantle

机译：在1和1.5GPa的次级冰曲型部分熔化，其在升高的异构地幔中的作用

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We performed partial melting experiments at 1 and 1.5 GPa, and 1180-1400 degrees C, to investigate the melting under mantle conditions of an olivine-websterite (GV10), which represents a natural proxy of secondary (or stage 2) pyroxenite. Its subsolidus mineralogy consists of clinopyroxene, orthopyroxene, olivine and spinel (+garnet at 1.5 GPa). Solidus temperature is located between 1180 and 1200 degrees C at 1 GPa, and between 1230 and 1250 degrees C at 1.5 GPa. Orthopyroxene (+/- garnet), spinel and clinopyroxene are progressively consumed by melting reactions to produce olivine and melt. High coefficient of orthopyroxene in the melting reaction results in relatively high SiO2 content of low melt fractions. After orthopyroxene exhaustion, melt composition is controlled by the composition of coexisting clinopyroxene. At increasing melt fraction, CaO content of melt increases, whereas Na2O, Al2O3 and TiO2 behave as incompatible elements. Low Na2O contents reflect high partition coefficient of Na between clinopyroxene and melt (D-Na2O(cpx/liquid)). Melting of GV10 produces Quartz-to Hyperstene-normative basaltic melts that differ from peridotitic melts only in terms of lower Na2O and higher CaO contents. We model the partial melting of mantle sources made of different mixing of secondary pyroxenite and fertile lherzolite in the context of adiabatic oceanic mantle upwelling. At low potential temperatures (TP < 1310 degrees C), low-degree melt fractions from secondary pyroxenite react with surrounding peridotite producing orthopyroxene-rich reaction zones (or refertilized peridotite) and refractory clinopyroxene-rich residues. At higher TP (1310-1430 degrees C), simultaneous melting of pyroxenite and peridotite produces mixed melts with major element compositions matching those of primitive MORBs. This reinforces the notion that secondary pyroxenite may be potential hidden components in MORB mantle source.

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《Contributions to Mineralogy and Petrology》 |2017年第8期|共23页
作者
Borghini G.; Fumagalli P.; Rampone E.;
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作者单位

Univ Milan Dipartimento Sci Terra Ardito Desio Via Botticelli 23 I-20133 Milan Italy;

Univ Milan Dipartimento Sci Terra Ardito Desio Via Botticelli 23 I-20133 Milan Italy;

Univ Genoa DISTAV I-16132 Genoa Italy;

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正文语种 eng
中图分类矿物学;岩石学;
关键词
Pyroxenites; Experimental petrology; Partial melting; Basalt composition; Mantle heterogeneity; Melt productivity;

机译：Pyroxenites;实验探测器;部分熔化;玄武岩组成;搭式非均质;熔化的生产率;

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Partial melting of secondary pyroxenite at 1 and 1.5 GPa, and its role in upwelling heterogeneous mantle

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