Metamorphism and diachronous cooling in a contractional orogen: the Strandja Massif, NW Turkey

The southern part of the Strandja Massif, northern Thrace, Turkey, comprises a basement of various gneisses, micaschists and rare amphibolite, and a cover of metaconglomerate and metasandstone, separated from each other by a pre-metamorphic unconformity. Metamorphic grade decreases from the epidote–...

Full description

Saved in:
Bibliographic Details
Published in:Geological magazine 2011-07, Vol.148 (4), p.580-596
Main Authors: SUNAL, G., SATIR, M., NATAL'IN, B. A., TOPUZ, G., VONDERSCHMIDT, O.
Format: Article
Language:English
Subjects:
absolute age
alkaline earth metals
amphibolite facies
Asia
contraction
cooling
Cretaceous
dates
Deformation
electron probe data
Europe
facies
faults
foliation
geochemistry
Geophysics
igneous and metamorphic rocks
isotope ratios
isotopes
lineation
Mesozoic
metals
Metamorphic rocks
Metamorphism
Middle East
mineral composition
northern Thrace
orogenic belts
P-T conditions
Paleozoic
Permian
petrology
phase equilibria
Plate tectonics
Rb/Sr
Rhodope Mountains
Seismology
shear zones
Southern Europe
Sr-87/Sr-86
stable isotopes
Strandja Massif
strontium
Structural geology
tectonics
textures
Thrace
Turkey
Unconformity
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The southern part of the Strandja Massif, northern Thrace, Turkey, comprises a basement of various gneisses, micaschists and rare amphibolite, and a cover of metaconglomerate and metasandstone, separated from each other by a pre-metamorphic unconformity. Metamorphic grade decreases from the epidote–amphibolite facies in the south to the albite–epidote–amphibolite/greenschist-facies transition in the north. Estimated P–T conditions are 485–530°C and 0.60–0.80 GPa in the epidote–amphibolite facies domain, and decrease towards the transitional domain between greenschist- and epidote–amphibolite facies. Rb–Sr muscovite ages range from 162.9 ± 1.6 Ma to 149.1 ± 2.1 Ma, and are significantly older (279–296 Ma) in the northernmost part of the study area. The Rb–Sr biotite ages decrease from 153.9 ± 1.5 Ma in the south to 134.4 ± 1.3 Ma in the north. These age values in conjunction with the attained temperatures suggest that the peak metamorphism occurred at around 160 Ma and cooling happened diachronously, and Rb–Sr muscovite ages were not reset during the metamorphism in the northernmost part. Structural features such as (i) consistent S-dipping foliation and SW to SE-plunging stretching lineation, (ii) top-to-the-N shear sense, and (iii) N-vergent ductile shear zones and brittle thrusts suggest a N-vergent compressional deformation coupled with exhumation. We tentatively ascribe this metamorphism and subsequent diachronous cooling to the northward propagation of a thrust slice. The compressional events in the Strandja Massif were most probably related to the coeval N-vergent subduction/collision system in the southerly lying Rhodope Massif.
ISSN:0016-7568
1469-5081
DOI:10.1017/S0016756810001020