A new classification of the Turkish terranes and sutures and its implication for the paleotectonic history of the region - BRGM - Bureau de recherches géologiques et minières Access content directly
Journal Articles Tectonophysics Year : 2007

A new classification of the Turkish terranes and sutures and its implication for the paleotectonic history of the region


The Turkish part of the Tethyan realm is represented by a series of terranes juxtaposed through Alpine convergent movements and separated by complex suture zones. Different terranes can be defined and characterized by their dominant geological background. The Pontides domain represents a segment of the former activemargin of Eurasia,where back-arc basins opened in the Triassic and separated the Sakarya terrane from neighbouring regions. Sakarya was re-accreted to Laurasia through the Balkanic mid-Cretaceous orogenic event that also affected the Rhodope and Strandja zones. The whole region from the Balkans to the Caucasus was then affected by a reversal of subduction and creation of a Late Cretaceous arc before collision with the Anatolian domain in the Eocene. If the Anatolian terrane underwent an evolution similar to Sakarya during the Late Paleozoic and Early Triassic times, both terranes had a diverging history during and after the Eo-Cimmerian collision. North of Sakarya, the Küre back-arc was closed during the Jurassic, whereas north of the Anatolian domain, the back-arc type oceans did not close before the Late Cretaceous. During the Cretaceous, both domains were affected by ophiolite obduction, but in very different ways: north directed diachronous Middle to Late Cretaceous mélange obduction on the Jurassic Sakarya passive margin; Senonian synchronous southward obduction on the Triassic passive margin of Anatolia. From this, it appears that the Izmir- Ankara suture, currently separating both terranes, is composite, and that the passive margin of Sakarya is not the conjugate margin of Anatolia. To the south, theCimmerian Taurus domain together with the Beydağları domain (part of the larger GreaterApulian terrane), were detached from northGondwana in the Permian during the opening of the Neotethys (East-Mediterranean basin). The drifting Cimmerian blocks entered into a soft collision with the Anatolian and related terranes in the Eo-Cimmerian orogenic phase (Late Triassic), thus suturing the Paleotethys. At that time, the Taurus plate developed forelandtype basins, filled with flysch-molasse deposits that locally overstepped the lower plate Taurus terrane and were deposited in the opening Neotethys to the south. These olistostromal deposits are characterized by pelagic Carboniferous and Permian material fromthe Paleotethys suture zone found in theMersin mélange. The latter, as well as theAntalya andMamonia domains are represented by a series of exotic units nowfound south of themain Taurus range. Part of the Mersin exotic material was clearly derived from the former north Anatolian passive margin (Huğlu-type series) and re-displaced during the Paleogene. This led us to propose a plate tectonic modelwhere theAnatolian ophiolitic front is linked upwith the Samail/Baër-Bassit obduction front found along the Arabianmargin. The obduction front was indented by the Anatolian promontory whose eastern end was partially subducted. Continued slab rollback of the Neotethys allowed Anatolian exotics to continue their course southwestward until their emplacement along the Taurus southern margin (Mersin) and up to theBeydağları promontory (Antaya-Mamonia) in the latest Cretaceous-Paleocene. The supra-subduction ocean opening at the back of the obduction front (Troodos-type Ocean) was finally closed by Eocene north-south shortening between Africa and Eurasia. This brought close to each other Cretaceous ophiolites derived from the north of Anatolia and those obducted on the Arabian promontory. The latter were sealed by a Maastrichtian platform, and locally never affected by Alpine tectonism,whereas those located on the eastern Anatolian plate are strongly deformed andmetamorphosed, and affected by Eocene arc magmatism. These observations help to reconstruct the larger frame of the central Tethyan realm geodynamic evolution. © 2007 Elsevier B.V. All rights reserved.


Earth Sciences

Dates and versions

hal-00635682 , version 1 (25-10-2011)



Patrice Moix, Laurent Beccaletto, Heinz W. Kozur, Cyril Hochard, François Rosselet, et al.. A new classification of the Turkish terranes and sutures and its implication for the paleotectonic history of the region. Tectonophysics, 2007, 451, pp.7-39. ⟨10.1016/j.tecto.2007.11.044⟩. ⟨hal-00635682⟩


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