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Post delamination magmatism at the Hasandag Cinder cone province Central Anatolia
Date
2016-12-12
Author
Gall, Helen Deborah
Pickard, Megan
Sayıt, Kaan
Hanan, Barry
Kürkçüoğlu, Biltan
Furman, Tanya
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Central Anatolian mafic lavas record both closure of the Tethyan Ocean and post-Miocene extension. Regional-scale delamination of the horizontally-subducted Neotethyan slab beneath Central Anatolia 9-14 Ma is inferred on the basis of >1 km of uplift of the Central Anatolian Plateau and the onset of widespread volcanism induced by melting of ascending asthenosphere (Bartol and Govers, 2014). Geochemical data from the Quaternary Hasandağ Cinder Cone Province suggest a more complicated story and require melting of both asthenosphere and lithosphere. Hasandağ cinder cones produce basalt, trachybasalt and basaltic trachyandesite (7.2-10.3 wt. % MgO; 48.9-51.8 wt. % SiO2). Systematic trends in key element ratios indicate a significant contribution from the lithosphere with metasomatic phases including rutile and sodic amphibole. Tb/YbN (1.2-1.7) values restrict depth of melting to the spinel stability field, 30-90 km. Sr-Nd-Hf isotopic values fall within published ranges of post-Miocene Central Anatolian mafic lavas and suggest binary mixing between geographically-constrained enriched and depleted endmembers. In contrast, ternary Pb isotopic abundances are nearly uniform and lack psuedobinary trends indicative of ordered mixing observed elsewhere in Anatolia and in other young extensional provinces. This difference suggests that Hasandağ lavas do not undergo progressive crustal contamination in an evolving extensional environment. Rather, Hasandağ primitive lavas document an increase in degree of melting with depth, a signature associated with drip magmatism (Elkins-Tanton, 2007; Holbig and Grove, 2008).Together, these data argue for a two-part lithospheric foundering process: Miocene microplate-scale delamination of the subducted African slab and the subsequent influx of warm asthenosphere stimulated localized Quaternary drip melting of the remaining Anatolian lithosphere. These distinct mechanisms and scales of lithospheric removal provide a consistent explanation for the broadly elevated Central Anatolian Plateau and the geographically limited occurrence of mafic magmatism with the distinctive profile of drip magmatism.
URI
https://hdl.handle.net/11511/84262
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Department of Geological Engineering, Conference / Seminar
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H. D. Gall, M. Pickard, K. Sayıt, B. Hanan, B. Kürkçüoğlu, and T. Furman, “Post delamination magmatism at the Hasandag Cinder cone province Central Anatolia,” 2016, Accessed: 00, 2021. [Online]. Available: https://hdl.handle.net/11511/84262.
