Cretaceous tectonic evolution of the Neo-Tethys in Central Iran: Evidence
from petrology and age of the Nain-Ashin ophiolitic basalts
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Abstract
The Nain and Ashin ophiolites consist of Mesozoic mélange units that were emplaced in the Late
Cretaceous onto the continental basement of the Central-East Iran microcontinent (CEIM). They largely
consist of serpentinized peridotites slices; nonetheless, minor tectonic slices of sheeted dykes and pillow
lavas - locally stratigraphically associated with radiolarian cherts - can be found in these ophiolitic
mélanges. Based on their whole rock geochemistry and mineral chemistry, these rocks can be divided
into two geochemical groups. The sheeted dykes and most of the pillow lavas show island arc tholeiitic
(IAT) affinity, whereas a few pillow lavas from the Nain ophiolites show calc-alkaline (CA) affinity.
Petrogenetic modeling based on trace elements composition indicates that both IAT and CA rocks derived
from partial melting of depleted mantle sources that underwent enrichment in subduction-derived
components prior to melting. Petrogenetic modeling shows that these components were represented
by pure aqueous fluids, or sediment melts, or a combination of both, suggesting that the studied rocks
were formed in an arc-forearc tectonic setting. Our new biostratigraphic data indicate this arc-forearc
setting was active in the Early Cretaceous. Previous tectonic interpretations suggested that the Nain
ophiolites formed, in a Late Cretaceous backarc basin located in the south of the CEIM (the so-called
Nain-Baft basin). However, recent studies showed that the CEIM underwent a counter-clockwise rotation
in the Cenozoic, which displaced the Nain and Ashin ophiolites in their present day position from an
original northeastward location. This evidence combined with our new data and a comparison of the
chemical features of volcanic rocks from different ophiolites around the CEIM allow us to suggest that the
Nain-Ashin volcanic rocks and dykes were formed in a volcanic arc that developed on the northern
margin of the CEIM during the Early Cretaceous in association with the subduction, below the CEIM, of a
Neo-Tethys oceanic branch that was existing between the CEIM and the southern margin of Eurasia. As a
major conclusion of this paper, a new geodynamic model for the Cretaceous evolution of the CEIM and
surrounding Neo-Tethyan oceanic basins is proposed.
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