2019
DOI: 10.1029/2019tc005594
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Geodynamics of Anatolia: Lithosphere Thermal Structure and Thickness

Abstract: We present the first thermal model for the lithosphere in Turkey, which shows a highly heterogeneous pattern associated with mosaics of the Tethyan and modern subduction systems. We calculate a regionally average crustal density of 2.90 g/cm3 consistent with the presence of large volumes of mafic material. The Moho temperature with a regionally average value of 650–850 °C shows strong short‐wavelength variations. Lithosphere thinning to 50–75 km in most of western Anatolia may have developed in response to the… Show more

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Cited by 40 publications
(39 citation statements)
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References 79 publications
(160 reference statements)
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“…4b) beneath the central and eastern parts of the Greater Caucasus and the Lesser Caucasus. There is a reasonably satisfactory agreement between the thermal model of Alexidze et al (1993) and those developed for the western Black Sea, northern Turkey, and Crimea (Tesauro et al, 2009(Tesauro et al, , 2010 and for the southern Black Sea and Lesser Caucasus (Artemieva and Shulgin, 2019). Also, the thermal model is in general agreement (i) with the local Pwave tomography model (Zabelina et al, 2016), showing negative seismic velocity anomalies at the depth of 30 km in the same parts of the Greater and Lesser Caucasus, which is likely to be associated with higher temperature at the depths, and (ii) with known past volcanic activities ( Fig.…”
Section: Magmatism and Heat Flowmentioning
confidence: 55%
“…4b) beneath the central and eastern parts of the Greater Caucasus and the Lesser Caucasus. There is a reasonably satisfactory agreement between the thermal model of Alexidze et al (1993) and those developed for the western Black Sea, northern Turkey, and Crimea (Tesauro et al, 2009(Tesauro et al, , 2010 and for the southern Black Sea and Lesser Caucasus (Artemieva and Shulgin, 2019). Also, the thermal model is in general agreement (i) with the local Pwave tomography model (Zabelina et al, 2016), showing negative seismic velocity anomalies at the depth of 30 km in the same parts of the Greater and Lesser Caucasus, which is likely to be associated with higher temperature at the depths, and (ii) with known past volcanic activities ( Fig.…”
Section: Magmatism and Heat Flowmentioning
confidence: 55%
“…The hot upper mantle with very slow shear velocities ( 4.2 km/s; Delph et al, 2017) beneath the CAVP has been well-documented (e.g., Biryol et al, 2011;Abgarmi et al, 2017;Reid et al, 2017;Artemieva and Shulgin, 2019). The low-velocity anomalies tentatively illustrated in Fig.…”
Section: Geodynamical Perspectives: Special Reference To Crustal Structuresmentioning
confidence: 80%
“…Additionally, patches of faster wavespeeds and deeper melt equilibration depths beneath parts of the Kırşehir block suggest a relatively thicker lithosphere (Fichtner et al., 2013; Reid et al., 2019). More variable lithospheric thickness, including some areas 150 km thick, has been suggested from heat flow modeling and isostatic considerations (Artemieva & Shulgin, 2019), yet evidence for the proposed thick lithospheric roots is mostly lacking in regional tomographic models (e.g., Biryol et al., 2011; Fichtner et al., 2013; Kounoudis et al., 2020; Portner et al., 2018).…”
Section: Introductionmentioning
confidence: 99%