Slab fragmentation beneath the Aegean/Anatolia transition zone: Insights from the tectonic and metamorphic evolution of the Eastern Aegean region

Slab fragmentation beneath the Aegean/Anatolia transition zone: Insights from the tectonic and metamorphic evolution of the Eastern Aegean region

Slab tearing below western Turkey had first-order tectonic and magmatic consequences by inducing a lateral gradient of extension in the upper plate and toroidal flow of asthenosphere that affected the typology and distribution of melts at the surface. But the coupling mechanisms between the 3D mantl...

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Veröffentlicht in:Tectonophysics 2019-03, Vol.754, p.101-129
Hauptverfasser: Roche, V., Jolivet, L., Papanikolaou, D., Bozkurt, E., Menant, A., Rimmelé, G.
Format: Artikel
Sprache:eng
Schlagworte:
Asthenosphere
Cretaceous
Deformation
Deformation mechanisms
Distribution
Earth Sciences
Eastern Aegean domain
Evolution
Geological faults
Islands
Kinematics
Low-angle detachments
Massifs
Melts
Metamorphism
Metamorphism (geology)
NNE-SSW extension
Orogeny
Plates (structural members)
Sciences of the Universe
Slab-dynamics
Strike-slip faults
Tearing
Tectonic
Tectonics
Three dimensional flow
Transition zone
Typology
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container_end_page 129
container_issue
container_start_page 101
container_title Tectonophysics
container_volume 754
creator Roche, V.
Jolivet, L.
Papanikolaou, D.
Bozkurt, E.
Menant, A.
Rimmelé, G.
description Slab tearing below western Turkey had first-order tectonic and magmatic consequences by inducing a lateral gradient of extension in the upper plate and toroidal flow of asthenosphere that affected the typology and distribution of melts at the surface. But the coupling mechanisms between the 3D mantle flow at depth and deformation in the upper plate above a slab tear have received little attention so far. This paper is focused on the description of the distribution and kinematics of deformation in the eastern part of the Aegean Sea, within the transition zone between the Cyclades and the Menderes Massif, which have been little studied. By investigating the Dodecanese and Eastern Aegean islands, we thus complete the description of the extensional strain field in the overriding plate around the slab tear. There, extension related to slab retreat and tearing keeps a constant NNE-SSW direction accommodating the difference in finite rates of extension, without localized crustal-scale strike-slip faults and block rotations above the tear. In addition, despite the complexity involved in the Aegean-Anatolian orogenic wedge, a similar structural position is recognized through the entire region. From top to bottom, we found that (i) the Lycian units which were exhumed earlier, in the Late Cretaceous, (ii) the higher-pressure and higher-temperature units (i.e. the Upper Cycladic Blueschist Nappe), with exception of the Vourliotes nappe in Samos, and finally (iii) the colder units such as Amorgos unit, the Menderes and its cover before the Main Menderes Metamorphism overprint and the Lower Cycladic Blueschist Nappe (e.g. Milos, Folegandros, a part of the Dodecanese and Fourni islands). •Extension in Dodecanese and Fourni islands is accommodated by low-angle detachments.•Consistent NNE-SSW-directed flow in lower crust above slab tear in Aegean/Anatolian transition zone•No localized strike-slip deformation in the lower crust above slab tearing•Three “nappes” are distinguished in the orogenic wedge with different P-T conditions.
doi_str_mv 10.1016/j.tecto.2019.01.016
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But the coupling mechanisms between the 3D mantle flow at depth and deformation in the upper plate above a slab tear have received little attention so far. This paper is focused on the description of the distribution and kinematics of deformation in the eastern part of the Aegean Sea, within the transition zone between the Cyclades and the Menderes Massif, which have been little studied. By investigating the Dodecanese and Eastern Aegean islands, we thus complete the description of the extensional strain field in the overriding plate around the slab tear. There, extension related to slab retreat and tearing keeps a constant NNE-SSW direction accommodating the difference in finite rates of extension, without localized crustal-scale strike-slip faults and block rotations above the tear. In addition, despite the complexity involved in the Aegean-Anatolian orogenic wedge, a similar structural position is recognized through the entire region. 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source Access via ScienceDirect (Elsevier)
subjects Asthenosphere
Cretaceous
Deformation
Deformation mechanisms
Distribution
Earth Sciences
Eastern Aegean domain
Evolution
Geological faults
Islands
Kinematics
Low-angle detachments
Massifs
Melts
Metamorphism
Metamorphism (geology)
NNE-SSW extension
Orogeny
Plates (structural members)
Sciences of the Universe
Slab-dynamics
Strike-slip faults
Tearing
Tectonic
Tectonics
Three dimensional flow
Transition zone
Typology
title Slab fragmentation beneath the Aegean/Anatolia transition zone: Insights from the tectonic and metamorphic evolution of the Eastern Aegean region
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