Abstract
The Aegean Sea area is thought to be an actively extending back-arc
region, north of the present day Hellenic volcanic arc and north-dipping
subduction zone in the Eastern Mediterranean. The area shows extensive
normal faulting, ductile ‘extensional’ shear zones and extensional S-C
fabrics throughout the islands that have previously been related to
regional Aegean extension associated with slab rollback on the Hellenic
Subduction Zone. In this paper, we question this interpretation, and
suggest the Cenozoic geodynamic evolution of the Aegean region is
associated with a Late Cretaceous–Eocene NE-dipping subduction zone that
was responsible for continent-continent collision between Eurasia and
Adria-Apulia/Cyclades. Exhumation of eclogite and blueschist facies
rocks in the Cyclades and kyanite-sillimanite grade gneisses in the
Naxos core complex have pressures that are far greater than could be
accounted for purely by lithospheric extension and isostatic uplift. We
identify four stages of crustal shortening that affected the region
prior to regional lithospheric extension, herein called the Aegean
Orogeny. This orogeny followed a classic Wilson cycle from early
ophiolite obduction (ca. 74 Ma) onto a previously passive continental
margin, to attempted crustal subduction with HP eclogite and blueschist
facies metamorphism (ca. 54–45 Ma), through crustal thickening and
regional kyanite – sillimanite grade Barrovian-type metamorphism (ca.
22–14 Ma), to orogenic collapse (<14 Ma). At least three periods of
‘extensional’ fabrics relate to: (1) Exhumation of blueschists and
eclogite facies rocks showing tight-isoclinal folds and top-NE, base-SW
fabrics, recording return flow along a subduction channel in a
compressional tectonic setting (ca. 50–35 Ma). (2) Extensional fabrics
within the core complexes formed by exhumation of kyanite- and
sillimanite gneisses showing thrust-related fabrics at the base and
‘extensional’ fabrics along the top (ca. 18.5–14 Ma). (3) Regional
ductile-brittle ‘extensional’ fabrics and low-angle normal faulting
related to the North Cycladic Detachment (NCD) and the South(West)
Cycladic Detachment (WCD) during regional extension along the flanks of a
major NW–SE anticlinal fold along the middle of the Cyclades. Major
low-angle normal faults and ductile shear zones show symmetry about the
area, with the NE chain of islands (Andros, Tinos, Mykonos, Ikaria)
exposing the NE-dipping NCD with consistent top-NE ductile fabrics along
200 km of strike. In contrast, from the Greek mainland (Attica) along
the SE chain of islands (Kea, Kythnos, Serifos) a SW-dipping low-angle
normal fault and ductile shear zone, the WCD is inferred for at least
100 km along strike. Islands in the middle of the Cyclades show deeper
structural levels including kyanite- and sillimanite-grade metamorphic
core complexes (Naxos, Paros) as well as Variscan basement rocks (Naxos,
Ios). The overall structure is an ∼100 km wavelength NW–SE trending
dome with low-angle extensional faults along each flank, dipping away
from the anticline axis to the NE and SW. Many individual islands show
post-extensional large-scale folding of the low-angle normal faults
around the domes (Naxos, Paros, Ios, Sifnos) indicating a post-Miocene
late phase of E–W shortening.
Original language | English |
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Journal | Geoscience Frontiers |
Volume | In press |
Early online date | 7 Aug 2020 |
DOIs | |
Publication status | E-pub ahead of print - 7 Aug 2020 |
Keywords
- Cyclades
- Ophiolite
- High-pressure metamorphism
- Core complex
- Compressional tectonics