Abstract
The Central Anatolian Crystalline Complex (CACC) exposes metamorphic, ophiolitic and igneous rocks that were formed and deformed during closure of the Neotethyan ocean. The CACC is located in central Turkey, between the Pontides in the north and the Taurides in the south, separated by major fault zones. Composite plutons intruded the meta-sedimentary and ophiolitic units between ~95 and 75. Ma, and form linear magmatic belts (~100. km long) along the western and northern margins of the CACC. Exhumation of the metamorphic and igneous complex was finalized by the Paleocene time. In this study, we paleomagnetically study fifteen plutons spanning the entire non-deformed upper Cretaceous granitoid belt to test whether the initial configuration of the CACC was modified by vertical axis rotations after its exhumation. Our results show three internally coherent domains with significantly different vertical-axis rotations: (1) in the north-east, the Akdaǧ-Yozgat block (AYB) records ~15° clockwise rotation, (2) in the north-west, the Kirşehir-Kirikkale block (KKB) shows ~6-9° counterclockwise rotation and (3) in the south-west, the Aǧaçören-Avanos block (AAB) shows 28-35° counterclockwise rotation. We propose that these rotations were accommodated by two transpressional fault zones: in the south, the existing Savcili Thrust Zone between the AYB and KKB and in the north, the newly introduced Delice-Kozakli Fault Zone between the KKB and AAB. The restored configuration of the CACC suggests that the three blocks were largely aligned in a ~NNE orientation at an early stage of their history. Consequently, since the late Cretaceous the shape of the CACC was affected by large scale deformation, resulting in its modern triangular geometry. This deformation phase is best explained as a result of collision of the CACC with the Pontides.
Original language | English (US) |
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Pages (from-to) | 83-98 |
Number of pages | 16 |
Journal | Earth and Planetary Science Letters |
Volume | 366 |
DOIs | |
State | Published - Mar 5 2013 |
Bibliographical note
Funding Information:The authors would like to dedicate this work to the memory of Tom Mullender, technician, electronician and gifted designer at the Paleomagnetic Laboratory Fort Hoofddijk in Utrecht, who greatly helped with the acquisition of the data presented in this article. Pınar Ertepınar and Murat Özkaptan are gratefully thanked for their precious help during the sampling process in the field. Merijn de Block, Annique van der Boon, Lydian Boschman, Jort Koopmans, Matthijs Kroon, Roeland Nieboer, Katrien van Oversteeg, Joost Roholl and Anna van Yperen are thanked for their help analyzing samples. We appreciated technical support of Mark Dekkers. Reinoud Vissers is acknowledged for making the project possible. This work was financially supported by the Netherlands Research Centre for Integrated Solid Earth Sciences (ISES) , the Netherlands Organisation for Scientific Research (NWO) and the DARIUS Programme .
Keywords
- Central Anatolia
- Collision
- Granitoids
- Paleomagnetism
- Rotation