Abstract
Detailed mapping and structural observations on the Cycladic Blueschist Unit (CBU) on Iraklia Island integrated with detrital zircon (DZ) U-Pb ages elucidate the Mesozoic pre-subduction and the Cenozoic orogenic evolution. Iraklia tectonostratigraphy includes a heterogeneous Lower Schist Fm., juxtaposed against a Marble Fm. and an overlying Upper Schist Fm. The contact is an extensional ductile-to-brittle-ductile, top-to-N shear zone, kinematically associated with the Oligo-Miocene exhumation. The DZ spectra of the Lower Schist have Gondwanan/peri-Gondwanan provenance signatures and point to Late Triassic Maximum Depositional Ages (MDAs). A quartz-rich schist lens yielded Precambrian DZ ages exclusively and is interpreted as part of the pre-Variscan metasedimentary Cycladic Basement, equivalent to schists of the Ios Island core. The Upper Schist represents a distinctly different stratigraphic package with late Cretaceous MDAs and dominance of Late Paleozoic DZ ages, suggestive of a more internal Pelagonian source. The contrast in the DZ U-Pb record between Lower and Upper Schist likely reflects the difference between a Paleotethyan and Neotethyan geodynamic imprint. The Triassic DZ input from eroded volcanic material is related to the final Paleotethys closure and Pindos/CBU rift basin opening, while late Cretaceous metamorphic/magmatic zircons and ~48–56 Ma zircon rims constrain the onset of Neotethyan convergence and high-pressure subduction metamorphism.
Highlights
In most cases, poly-deformed and poly-metamorphosed high-grade rocks have lost their fossil record and much of the stratigraphic framework necessary for local and regional correlations
The recognition of Metamorphic Core Complexes (MCCs) [1] made the Attic-Cycladic Crystalline Complex (ACCC) (Figure 1a,b) the subject for several studies [2,3,4,5,6,7,8,9,10,11,12,13,14,15] primarily focused on the Cenozoic structural and metamorphic evolution of the overlying Permian to Mesozoic Cycladic Blueschist Unit (CBU) and its Carboniferous Cycladic Basement (CB)
The CBU includes a Permo-Mesozoic sequence of marble, schists, and metavolcanic rocks metamorphosed under eclogite to blueschist metamorphic conditions in the Eocene, which are best preserved on Evvia, Syros, Sifnos, and the Tinos islands [27,38,39,40,41,42]
Summary
Poly-deformed and poly-metamorphosed high-grade rocks have lost their fossil record and much of the stratigraphic framework necessary for local and regional correlations. The recognition of Metamorphic Core Complexes (MCCs) [1] made the Attic-Cycladic Crystalline Complex (ACCC) (Figure 1a,b) the subject for several studies [2,3,4,5,6,7,8,9,10,11,12,13,14,15] primarily focused on the Cenozoic structural and metamorphic evolution of the overlying Permian to Mesozoic Cycladic Blueschist Unit (CBU) and its Carboniferous Cycladic Basement (CB) These studies have offered insights into both the subduction processes and partly the back-arc extension and MCC-formation processes [2,3,4,5,6,7,8,9,10,11,12,13,14,15]. Minerals 2022, 12, 83 tectonostratigraphic and metamorphic correlations with the neighboring Ios and Naxos, and (c) reconstruct the pre-subduction history of Iraklia, as part of the regional Paleotethyan to Neotethyan evolution
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