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Transition from shoshonitic to adakitic magmatism in the eastern Pontides,NE Turkey: Implications for slab window melting
Authors:Yener Eyuboglu  Sun-Lin Chung  M. Santosh  Francis O. Dudas  Enver Akaryalı
Affiliation:1. Kocaeli Üniversitesi, Mühendislik Fakültesi, Jeoloji Mühendisli?i Bölümü, 41380 Kocaeli, Turkey;2. University of Geneva, Section des Sciences de la Terre et de l''Environnement, CH-1205 Geneva, Switzerland;3. Dipartimento di Geoscienze, Università di Padova, and IGG-CNR, 35100-Padova, Italy;4. University of Auburn, Department of Geology and Geography, 117 Petrie Hall, Auburn, AL, USA;5. Department of Earth and Environmental Sciences, Ludwig-Maximilians Universität, 80333 Munich, Germany;1. Department of Geological Engineering, Recep Tayyip Erdo?an University, TR-53000 Rize, Turkey;2. Department of Geological Engineering, Gümü?hane University, TR-29000 Gumushane, Turkey;3. Mineralogical State Collection Munich, D-80333 München, Germany;4. Department of Geological Engineering, Karadeniz Technical University, TR-61080 Trabzon, Turkey;5. Department of Earth and Environmental Sciences, LMU, D-80333 München, Germany;1. Department of Geological Engineering, Karadeniz Technical University, 61080, Trabzon, Turkey;2. Department of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, MA 02139, USA;3. School of Earth Sciences and Resources, China University of Geosciences, 29 Xueyuan Road, Beijing 100083, China;4. Korea Basic Science Institute, YangCheong 804-1, Ochang, Cheongwon, Chungbuk 363-883, Republic of Korea;5. Department of Earth System Sciences, Yonsei University, 134 Shinchon-Dong, Seodaemun-Gu, Seoul 120-749, Republic of Korea;6. Department of Geological Engineering, Gumushane University, 29000, Gumushane, Turkey;1. Department of Geological Engineering, Karadeniz Technical University, 61080 Trabzon, Turkey;2. Department of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, MA 02139, USA;3. School of Earth Science and Mineral Resources, China University of Geosciences, 29 Xue-Yuan Road, Haidian District, Beijing 100083, China;4. Korea Basic Science Institute, YangCheong 804-1, Ochang, Cheongwon, Chungbuk 363-883, South Korea;5. Department of Geological Engineering, Gumushane University, 29000 Gumushane, Turkey
Abstract:The formation of the eastern Pontides orogenic belt has been widely assigned to a northward subduction of the Neotethyan oceanic slab during the late Mesozoic–Cenozoic. Here we provide an alternate model based on new geological, geochemical and isotopic data. The magmatic activity in the far south of the belt started in the early Campanian with shoshonitic trachyandesites and associated pyroclastics. This sequence is covered by the late Campanian–early Maastrichtian reefal limestones and another stage of high-K volcanism represented by analcimized leucite-rich ultrapotassic rocks of the Maastrichtian–early Paleocene (?) ages. The shoshonitic and ultrapotassic rocks, with K2O contents ranging from 0.26 to 6.95 wt.%, display broadly similar rare earth and multi-element distribution patterns. Both rock types are enriched in LILE and LREE and depleted in HFSE (Nb, Ta and Ti), suggesting a subduction-enriched mantle source for the magma generation. Subsequently, during the late Paleocene, a stage of acidic magmatism (SiO2 of 53.25–73.61 wt.%) that shows adakitic geochemical characteristics including high Sr/Y (46–416) and La/Yb (11–51) and low Y (2.6–12.2 ppm), is documented characterized by melting of a mafic source such as the MORB crust with garnet in the residue. The adakitic magmatism began at ~ 56 Ma and migrated toward the north through time, culminating with porphyritic andesites (~ 47 Ma) that were emplaced in the Gumushane–Bayburt line and its vicinity. North of this line, coeval magmas show typical calc-alkaline nature and continued to develop toward further north until the middle to late Eocene. Based on the spatial and temporal variations in the magmas generated in the eastern Pontides orogenic belt, we propose a new geodynamic model to explain the tectonomagmatic evolution of these rocks and correlate the adakitic magmatism to ridge subduction and slab window process within a south-dipping subduction zone. Our model is in contrast to the previous proposals which envisage partial melting or delamination of thickened lower continental crust due to the collision in the south during the Paleocene–Eocene.
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