An olistostrome-melange belt formed along a suture: Bornova Flysch zone, western Turkey


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Okay A., İşintek İ., Altıner D., Altıner S., Okay N.

TECTONOPHYSICS, vol.568, pp.282-295, 2012 (SCI-Expanded) identifier identifier

  • Publication Type: Article / Article
  • Volume: 568
  • Publication Date: 2012
  • Doi Number: 10.1016/j.tecto.2012.01.007
  • Journal Name: TECTONOPHYSICS
  • Journal Indexes: Science Citation Index Expanded (SCI-EXPANDED), Scopus
  • Page Numbers: pp.282-295
  • Keywords: Olistostrome, Melange, Turkey, Bornova, Flysch Zone, Stratigraphy, Mesozoic, HIGH-PRESSURE METAMORPHISM, SOUTHERN MENDERES MASSIF, ECLOGITE-FACIES ROCKS, TAURIDE OPHIOLITES, TETHYAN EVOLUTION, SUBDUCTION ZONE, CHIOS ISLAND, NW TURKEY, GREECE, HISTORY
  • Middle East Technical University Affiliated: Yes

Abstract

The Bornova Flysch Zone (BFZ) in western Turkey is a regional olistostrome-melange belt located between the Izmir-Ankara Tethyan suture in northwest and the Menderes Massif in the southeast. The BFZ consists mostly of tectonized gravity mass flows. The blocks are Mesozoic limestone and ophiolite, which are enclosed in Cretaceous-Paleocene sheared sandstone and shale. The limestone blocks are of two types. The first type consists of Late Triassic to Cretaceous shallow marine carbonates. The second type has an Upper Triassic shallow marine section overlain by Jurassic to Cretaceous pelagic limestones. A semi-intact part of the platform occurs in the Karaburun peninsula and on the island of Chios. The ophiolitic blocks in the BFZ include ultramafic rock, gabbro, basalt and radiolarian chert of Middle Triassic to Cretaceous in age. The formation of the BFZ overlaps with the Cretaceous subduction and HP/LT metamorphism of the northern passive continental margin of the Anatolide-Tauride Block. This subduction zone was bounded in the west by a strike-slip tear fault. The BFZ formed in a narrow basin between this tear fault and the Tethyan ocean. The mass flows came from the southeast from the overriding ophiolite and accretionary complex, and from the northwest from the uplifted segments of the platform margin. This model provides an explanation as why the BFZ is unmetamorphosed, whereas the equivalent strata in the Menderes Massif were metamorphosed at depths of over 20 km. It also explains the prominence of gravity flows and the southward younging in the BFZ, and for the apparently anomalous observation that, although the Tethyan ocean lay to the northwest, the ophiolitic blocks are more common on the southeastern part of the BFZ. Regions away from the tear fault, such as the Karaburun peninsula, were least affected by subsidence and deformation during the Cretaceous and Paleocene. (C) 2012 Elsevier B.V. All rights reserved.