Isotopic evidence for a transition from subduction to slab-tear related volcanism in western Anatolia, Turkey

• Published in: Lithos Vol. 192-195; pp. 226 - 239
• Main Authors: Karaoglu, Oezguer, Helvaci, Cahit
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.04.2014
• Subjects: Magmatism; Slab rollback; Tear fault; Transfer zones; Western Anatolia; MED, Turkey, Anatolia; MED, Aegean Sea; Cyprus; MED, Turkey; Magmatism; Tear fault; Transfer zones; Slab rollback; Western Anatolia
• ISSN: 0024-4937; 1872-6143
• DOI: 10.1016/j.lithos.2014.02.006

Volcanic rocks in western Turkey show age progressive magmatism migrating from northeast to southwest that reflects a southward shift of the Aegean subduction zone during the Miocene. Slab segmentation during this period of trench-roll back is thought to have imposed source region heterogeneity trending northwest to southeast. In this study, we present new Sr, Nd, Pb and O isotopic analyses from the Miocene volcanic rocks of the Uşak–Güre basin and compare these to previously published data. The data demonstrate a change from subduction-related sources around the Menderes Core Complex to more asthenospheric sources in the Afyon region. Isotopic compositions (Sr–Nd–Pb) of volcanic rocks from the Demirci and Selendi basins to the west and the Afyon volcanic area to the east indicate minimal upper crustal contamination. The most primitive lavas also reveal increasing K contents from west (the NE–SW-trending basins) to east (Afyon region). It is suggested that the composition of the western Anatolian volcanic rocks change from orogenic (with lithospheric mantle sources) associated to denudation of the Menderes Massif Core Complex (MMCC) to anorogenic (with asthenospheric mantle sources) in the vicinity of the Kırka–Afyon–Isparta (KAI) volcanic province with time, from Early Miocene to Quaternary. There is no asthenospheric contribution during the late Miocene onwards in the eastern margin of the MMCC, while the asthenospheric upwelling occurred only in a small area beneath the exhuming core complex. We interpret the Uşak–Güre basin to reflect a structural boundary showing a transition from a subduction-influenced metasomatized mantle source to asthenospheric mantle source volcanism driven by slab-tearing between the Hellenic and Cyprus slab segments. The Uşak–Muğla Transfer Zone (UMTZ) most likely corresponds to slab-tear related westernmost faults that were induced by initiation of slab segmentation processes following the late Miocene (circa 11Ma), and possibly since the Early Miocene. •We indicate a change from subduction to asthenospheric sources in western Turkey•Most primitive lavas show an increasing in K contents from west to east•Uşak area is a structural boundary for subduction to slab tearing volcanism•Ultrapotassic rocks are associated with the initiation of thinning of the slab