Water-assisted migmatization of metagraywackes in a Variscan shear-zone, Aiguilles-Rouges massif, western Alps
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State: Public
Version: Final published version
UNIL restricted access
State: Public
Version: Final published version
Serval ID
serval:BIB_9F763EED5B16
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Water-assisted migmatization of metagraywackes in a Variscan shear-zone, Aiguilles-Rouges massif, western Alps
Journal
Lithos
ISSN-L
0024-4937
Publication state
Published
Issued date
2008
Peer-reviewed
Oui
Volume
102
Pages
575-597
Language
english
Abstract
Migmatitic rocks developed in metagraywackes during the Variscan orogeny in the Aiguilles-RougesMassif (westernAlps). Partial melting took place 320 Ma ago in a 500 m-wide vertical shearzone. Three leucosome types have been recognised on the basis of size and morphology: (1) large leucosomes > 2 cm wide and > 40 cm long lacking mafic selvage, but containing cm-scale mafic enclaves; (2) same as 1 but with thick mafic selvage (melanosome); (3) small leucosomes < 2 cm and < 40 cm) with thin dark selvages (stromatic migmatites). Types 1 + 2 have mineralogical and chemical compositions in keeping with partial melting experiments. But Type 3 leucosomes have identical plagioclase composition (An19-28) to neighbouring mesosome, both in terms of major- and trace-elements. Moreover, whole-rock REE concentrations in Type 3 leucosomes are only slightly lower than those in the mesosomes, unlike predicted by partial melting experiments. The main chemical differences between all leucosome types can be related to the coupled effect of melt segregation and late chemical reequilibration.
Mineral assemblages and thermodynamic modelling on bulk-rock composition restrict partial melting to ∼ 650 °C at 400 MPa. The large volume of leucosome (20 vol.%) thus generated requires addition of 1 wt.% external water. Restriction of extensive migmatization to the shearzone, without melting of neighbouring metapelites, also points to external fluid circulation within the shearzone as the cause of melting.
Mineral assemblages and thermodynamic modelling on bulk-rock composition restrict partial melting to ∼ 650 °C at 400 MPa. The large volume of leucosome (20 vol.%) thus generated requires addition of 1 wt.% external water. Restriction of extensive migmatization to the shearzone, without melting of neighbouring metapelites, also points to external fluid circulation within the shearzone as the cause of melting.
Create date
16/05/2008 13:04
Last modification date
20/08/2019 15:05