Breaking plates: Creation of the East Anatolian fault, the Anatolian plate, and a tectonic escape system

Donna Whitney; Jonathan Delph; Stuart N. Thomson; Susan L. Beck; Gilles Brocard; M. Cosca; Michael H. Darin; Nuretdin Kaymakci; Maud J.M. Meijers; Aral Okay; Bora Rojay; Christian Teyssier; Paul J. Umhoefer

doi:10.1130/G51211.1

Breaking plates: Creation of the East Anatolian fault, the Anatolian plate, and a tectonic escape system

Geology

By: Donna Whitney, Jonathan Delph, Stuart N. Thomson, Susan L. Beck, Gilles Brocard, M. Cosca, Michael H. Darin, Nuretdin Kaymakci, Maud J.M. Meijers, Aral Okay, Bora Rojay, Christian Teyssier, and Paul J. Umhoefer

https://doi.org/10.1130/G51211.1

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Abstract

Lateral movement of lithospheric fragments along strike-slip faults in response to collision (escape tectonics) has characterized convergent settings since the onset of plate tectonics and is a mechanism for the formation of new plates. The Anatolian plate was created by the sequential connection of strike-slip faults following ≥10 m.y. of distributed deformation that ultimately localized into plate-bounding faults. Thermochronology data and seismic images of lithosphere structure near the East Anatolian fault zone (EAFZ) provide insights into the development of the new plate and escape system. Low-temperature thermochronology ages of rocks in and near the EAFZ are significantly younger than in other fault zones in the region, e.g., apatite (U-Th)/He: 11–1 Ma versus 27–13 Ma. Young apatite (U-Th)/He ages and thermal history modeling record thermal resetting along the EAFZ over the past ~5 m.y. and are interpreted to indicate thermal activity triggered by strike-slip faulting in the EAFZ as it formed as a through-going, lithosphere-scale structure. The mechanism for EAFZ formation may be discerned from S-wave velocity images from the Continental Dynamics–Central Anatolian Tectonics (CD-CAT) seismic experiment. These images indicate that thin but strong Arabian lithospheric mantle extends ~50–150 km north beneath Anatolian crust and would have been located near the present surficial location of the Bitlis-Zagros suture zone (co-located with the EAFZ in our study area) at ca. 5 Ma. Underthrusting of strong Arabian lithosphere facilitated localization of the EAFZ and thus was a fundamental control on the formation of the Anatolian plate and escape system.

Suggested Citation

Whitney, D., Delph, J., Thomson, S.N., Beck, S.L., Brocard, G., Cosca, M., Darin, M.H., Kaymakci, N., Meijers, M.J., Okay, A., Rojay, B., Teyssier, C., Umhoefer, P.J., 2023, Breaking plates: Creation of the East Anatolian fault, the Anatolian plate, and a tectonic escape system: Geology, v. 51, no. 7, p. 673-677, https://doi.org/10.1130/G51211.1.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Breaking plates: Creation of the East Anatolian fault, the Anatolian plate, and a tectonic escape system
Series title	Geology
DOI	10.1130/G51211.1
Volume	51
Issue	7
Publication Date	May 16, 2023
Year Published	2023
Language	English
Publisher	Geological Society of America
Contributing office(s)	Geology, Geophysics, and Geochemistry Science Center
Description	5 p.
First page	673
Last page	677
Country	Turkey
Other Geospatial	East Anatolian Fault