Diverse tectonic settings of formation of the metaigneous rocks in the Jurassic metamorphic accretionary complexes (Refahiye, NE Turkey) and their geodynamic implications

G. Göçmengil*, I. E. Altintaş, G. Topuz, Ö F. Çelik, M. Özkan

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

18 Citations (Scopus)

Abstract

Two isolated metamorphic accretionary complexes of Jurassic age, the Refahiye and Kurtlutepe metamorphic rocks, crop out as tectonic slices within the coeval suprasubduction-zone ophiolite at the southern margin of the Eastern Pontides (NE Turkey), close to the İzmir-Ankara-Erzincan suture. The Refahiye metamorphic rocks are made up of greenschist, marble, serpentinite, phyllite and minor garnet amphibolite, garnet micaschist and metachert. The whole unit was metamorphosed under garnet-amphibolite-facies conditions and strongly retrogressed during exhumation. The Kurtlutepe metamorphic rocks consist of subgreenschist-facies metavolcanics, metavolcaniclastics, marble, calc-phyllite, and minor serpentinite and metachert. Metabasites in the Refahiye metamorphic rocks are represented by four distinct geochemical affinities: (i) cumulate "flavor," (ii) alkaline oceanic island basalt (OIB), (iii) enriched mid-ocean ridge basalt (E-MORB) and (iv) tholeiitic island arc basalt (IAB). On the other hand, the Kurtlutepe metavolcanic rocks display only tholeiitic to calc-alkaline island arc geochemical affinities. The metabasic rocks with OIB affinities were interpreted as parts of the accreted oceanic islands, and those with E-MORB affinities as parts of accreted ridge segments close to oceanic islands and/or plume-distal mid-ocean ridges with a mantle previously metasomatized by plume components. The metabasic rocks with IAB affinities might have been derived from the overlying suprasubduction ophiolite and/or arc domain by a number of tectonic or sedimentary processes including tectonic slicing of accretionary complex and overlying fore-arc ophiolite, juxtaposition of the magmatic arc with subduction zone by strike slip faults, submarine gravity sliding and debris flows or subduction erosion. However, totally recrystallized nature of the metabasic rocks together with field relations does not allow any inference on the processes involved. The Kurtlutepe metavolcanic rocks might represent collided and accreted oceanic island arc with the subduction zone. Attempted subduction of an intraoceanic island arc may also explain the magmatic lull during Late Jurassic-Early Cretaceous in the Eastern Pontides.

Original languageEnglish
Pages (from-to)294-310
Number of pages17
JournalGeodinamica Acta
Volume26
Issue number3-4
DOIs
Publication statusPublished - 1 Dec 2013

Funding

Over years, we have greatly benefited from the discussions with Aral Okay on the development of accretionary complexes and geology of the Eastern Mediterranean region. This paper would have been not possible without these discussions. This paper resulted from the parts of the master theses of G. Göçmengil and İ. E. Altıntaş, which was supported by a research grant (#109Y059) from the TÜBİTAK, and the research fund of the Istanbul Technical University (İTÜ-BAP). G. Topuz acknowledges support from the TUBA-GEBIP program. Careful reviews by T. Ustaömer and E. Saccani, and discussions with A.M.C. Şengör and Boris Natal’in are gratefully acknowledged.

FundersFunder number
TUBA-GEBIP
TÜBİTAK
Istanbul Teknik Üniversitesi
İTÜ-BAP

    Keywords

    • accretionary complex
    • Eastern Pontides
    • geochemistry
    • metabasic rocks
    • Refahiye

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