Add to ORKGThe East Anatolian High Plateau is a region of average ~2 km elevation a.s.l. exhibiting active diffuse N-S shortening and widespread Pliocene to recent volcanicity. Its elevation was hitherto thought to result from a presumed crustal thickness of ± 55 km. Seismic data collected by a new network of 29 seismograph stations have shown, however, that its crustal thickness is only some 45 km. Combined with observations on Pn and Sn phases, this shows that most of the East Anatolian High Plateau is devoid of mantle lithosphere. Areas of no mantle lithosphere is inferred to coincide broadly with the extent of the East Anatolian Accretionary Complex, a subduction-accretion prism of late Cretaceous to earliest Oligocene age. The absence of mantle l...
This paper was published by the Geological Society of America (GSA). Copyright 2006, GSA. See also...
The Central and Eastern Anatolian plateaus are integral parts of the world's third largest orogenic ...
International audienceMulti-scale full waveform inversion of complete continental- and regional-scal...
An edited version of this paper was published by the American Geophysical Union (AGU). Copyright 20...
The Eastern Anatolia region is one of the best examples of a continental collision zone in the world...
The Eastern Anatolian Plateau (EAP), approximately 2000 m above sea level, is located between the Ea...
Regional observations suggest that the Central Anatolian plateau (central Turkey) has risen by > 1 k...
International audienceThe engines of surface deformation in the Anatolia-Aegean region are a matter ...
The East Anatolian plateau (Turkey) is extensively covered by Neogene to Quaternary volcanic-sedimen...
Imaging of seismic velocity discontinuities with receiver functions suggests a complex mantle struct...
Central Anatolia (Turkey) is a small and nascent example of a high orogenic plateau, providing a nat...
Turkey lies within the Alpine–Himalayan orogenic belt and is shaped by continent-continent collision...
Eastern Anatolia is regarded as one of the best examples of continental collision, represented by a ...
This paper was published by the Geological Society of America (GSA). Copyright 2006, GSA. See also...
The Central and Eastern Anatolian plateaus are integral parts of the world's third largest orogenic ...
International audienceMulti-scale full waveform inversion of complete continental- and regional-scal...
An edited version of this paper was published by the American Geophysical Union (AGU). Copyright 20...
The Eastern Anatolia region is one of the best examples of a continental collision zone in the world...
The Eastern Anatolian Plateau (EAP), approximately 2000 m above sea level, is located between the Ea...
Regional observations suggest that the Central Anatolian plateau (central Turkey) has risen by > 1 k...
International audienceThe engines of surface deformation in the Anatolia-Aegean region are a matter ...
The East Anatolian plateau (Turkey) is extensively covered by Neogene to Quaternary volcanic-sedimen...
Imaging of seismic velocity discontinuities with receiver functions suggests a complex mantle struct...
Central Anatolia (Turkey) is a small and nascent example of a high orogenic plateau, providing a nat...
Turkey lies within the Alpine–Himalayan orogenic belt and is shaped by continent-continent collision...
Eastern Anatolia is regarded as one of the best examples of continental collision, represented by a ...
This paper was published by the Geological Society of America (GSA). Copyright 2006, GSA. See also...
The Central and Eastern Anatolian plateaus are integral parts of the world's third largest orogenic ...
International audienceMulti-scale full waveform inversion of complete continental- and regional-scal...