The origin and geodynamic setting of the Maden Complex, which is situated in the Bitlis-Zagros Suture Zone in the Southeast Anatolian Orogenic Belt, is still controversial due to lack of systematic geological and geochemical data. Here we present new whole rock major-trace-rare earth element data from the Middle Eocene volcanic rocks exposed in Maden Complex and discuss their origin in the light of new and old data. The volcanic lithologies are represented mainly by basalt and andesite, and subordinately dacite that vary from low-K tholeiitic, calc-alkaline, high-K calc-alkaline, and shoshonitic in composition. They exhibit enrichments in large ion lithophile and light rare earth elements, with depletions in high field strength elements. These geochemical characteristics indicate that two end-members, a subduction-related mantle source and a continental crust, were involved in the magma genesis. Considering all geological and geochemical data, we suggest that the Eocene Maden magmatism occurred as a post-collisional product by asthenospheric upwelling owing to convective removal of the lithosphere during an extensional collapse of the Southeast Anatolian ranges.
ERTÜRK, M. A., BEYARSLAN, M., & SAR, A. (2018). Geochemical Constraints on the Origin and Tectonic Implication of Eocene Magmatism in SE Turkey. Quarterly Journal of Tethys, (), -.
MLA
Mehmet Ali ERTÜRK; Melahat BEYARSLAN; Abdullah SAR. "Geochemical Constraints on the Origin and Tectonic Implication of Eocene Magmatism in SE Turkey". Quarterly Journal of Tethys, , , 2018, -.
HARVARD
ERTÜRK, M. A., BEYARSLAN, M., SAR, A. (2018). 'Geochemical Constraints on the Origin and Tectonic Implication of Eocene Magmatism in SE Turkey', Quarterly Journal of Tethys, (), pp. -.
VANCOUVER
ERTÜRK, M. A., BEYARSLAN, M., SAR, A. Geochemical Constraints on the Origin and Tectonic Implication of Eocene Magmatism in SE Turkey. Quarterly Journal of Tethys, 2018; (): -.