The role of H2O during crystallization of primitive arc magmas under uppermost mantle conditions and genesis of igneous pyroxenites: an experimental study

Details

Serval ID
serval:BIB_413E6122DEDD
Type
Article: article from journal or magazin.
Collection
Publications
Title
The role of H2O during crystallization of primitive arc magmas under uppermost mantle conditions and genesis of igneous pyroxenites: an experimental study
Journal
Contributions to Mineralogy and Petrology
Author(s)
Muntener O., Kelemen P.B., Grove T.L.
ISSN-L
0010-7999
Publication state
Published
Issued date
2001
Peer-reviewed
Oui
Volume
141
Pages
643-658
Language
english
Abstract
Exposed, subduction-related magmatic arcs commonly include sections of
ultramafic plutonic rocks that are composed of dunite, wehrlite, and
pyroxenite. In this experimental study we examined the effects of
variable H2O concentration on the phase proportions and compositions of
igneous pyroxenites and related ultramafic plutonic rocks. Igneous
crystallization experiments simulated natural, arc magma compositions
at 1.2 GPa, corresponding to conditions of the arc lower crust.
Increasing H2O concentration in the liquid changes the crystallization
sequence. Low H2O concentration in the liquid stabilizes plagioclase
earlier than garnet and amphibole while derivative liquids remain
quartz normative. Higher H2O contents (>3%) suppress plagioclase and
lead to crystallization of amphibole and garnet thereby producing
derivative corundum normative andesite liquids. The experiments show
that alumina in the liquid correlates positively with Al in pyroxene,
as long as no major aluminous phase crystallizes. Extrapolation of this
correlation to natural pyroxenites in the Talkeetna and Kohistan arc
sections indicates that clinopyroxenes with low Ca-Tschermaks component
represent near-liquidus phases of primitive, Si-rich hydrous magmas.
Create date
17/04/2009 23:56
Last modification date
20/08/2019 13:41
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