Ca-rich garnets and associated symplectites in mafic peraluminous granulites from the Gföhl Nappe System, Austria

Autor(en)
Konstantin Petrakakis, Nathalie Schuster-Bourgin, Gerlinde Habler, Rainer Abart
Abstrakt

Mafic peraluminous granulites associated with the mantle-derived peridotites of the Dunkelsteiner Wald provide evidence of the tectono-metamorphic evolution of the Gfohl Nappe System, Austria. They contain the primary assemblage garnet + Al-rich clinopyroxene + kyanite. Large Ca-and Mg-rich garnets are embedded in a granoblastic matrix of Al-rich clinopyroxene, Ca-rich plagioclase and minor hornblende. They were partially replaced by different generations of symplectites: (a) corundum + sapphirine + spinel + plagioclase formed around kyanite inclusions, (b) orthopyroxene + spinel + plagioclase +/- hornblende formed at their rims and (c) clinopyroxene + orthopyroxene + spinel + plagioclase +/- hornblende formed within cracks.

Large garnets show complex compositional structure comprising several repeatedly occurring garnet types, which are characterized by specific compositions. The areal extent and the cross-cutting relations observed in element distribution maps allowed for the derivation of the relative timing of the formation of the different garnet types. The compositional features of the garnets indicate post-formational modification by intra-crystalline diffusion and metasomatic agents.

The garnet composition isopleths in equilibrium assemblage diagrams are in line with compositions modification as indicated by the element distribution maps. They confirm the deviation of composition from equilibrium for all garnet types. Furthermore, at least the youngest garnet types show evidence of metasomatic (Fe + Mg) loss affecting their Ca content. Pressure-temperature (P-T) estimates are based on equilibrium assemblage diagrams that reproduce satisfactorily the observed mineral assemblages and measured mineral compositions. Criteria for checking the existence of preserved equilibrium compositions are suggested. The results call into question the invariability of the assumption that the Ca content and/or zoning in garnet preserves primary P-T information from garnet growth in every case.

Recrystallization and compositional readjustment of the reactive garnet volume during symplectite formation led to the development of pronounced, secondary diffusion-induced zoning profiles overprinting the different garnet types and post-dating the complex garnet compositional structure. The primary assemblage is stable between 760 and 880 degrees C and pressures > 11 kbar. The bulk composition of the crack symplectites is almost isochemical to the oldest, broken-down garnet type. These symplectites were formed above 730 degrees C and pressures between 5 and 7.5 kbar. The rocks studied underwent more or less isothermal decompression from pressures above 11 to similar to 6 kbar at temperatures of about 800 degrees C. Crack and rim symplectites were formed after decompression during the early stage of approximately isobaric cooling under conditions of low differential stress. Due to limited availability of fluids promoting symplectite formation, the timescale of symplectite formation calculated from secondary diffusion profiles associated with crack symplectites is shown to be geologically very short (< 0.5 ka).

Organisation(en)
Institut für Geologie, Department für Lithosphärenforschung
Externe Organisation(en)
Universität Wien
Journal
Solid earth
Band
9
Seiten
797-819
Anzahl der Seiten
23
ISSN
1869-9510
DOI
https://doi.org/10.5194/se-9-797-2018
Publikationsdatum
06-2018
Peer-reviewed
Ja
ÖFOS 2012
105120 Petrologie
Schlagwörter
ASJC Scopus Sachgebiete
Earth-Surface Processes, Geochemistry and Petrology, Geology, Geophysics, Soil Science, Palaeontology, Stratigraphy
Link zum Portal
https://ucrisportal.univie.ac.at/de/publications/fba70237-cf10-49cb-9a9e-8254d26b15dd