Abstract
Geoscientists have always considered the Neyriz region, located along the Zagros Suture Zone, an important area of interest because of the outcrops of Neotethys ophiolitic rocks. We carried out a modal analysis of the Cenozoic sandstones and geochemistry of the detrital Cr-spinels at Neyriz region in order to determine their provenance and tectonic evolution in the proximal part of Zagros Basin. Our data shows a clear change in provenance from the Late Cretaceous onwards. As from the Late Cretaceous to Eocene, lithic grains are mostly chert and serpentinite; and higher Cr# values of the detrital Cr-spinel compositions indicate that they originate from the fore-arc peridotites and deposited in an accretionary prism setting during this period. From the Late Oligocene to the Miocene periods, volcaniclastic and carbonate lithic grains show an increasing trend, and in the Miocene, metasedimentary lithic grains appear in the sediments. Ophiolite obduction caused a narrow trough sub-basin to be formed parallel to the general trend of the Zagros Orogeny between the Arabian and Iranian plates in Oligocene. From the Miocene onwards, the axial metamorphic complex belt was uplifted in the upper plate. Therefore, the collision along the Zagros Suture Zone must have occurred in the Late Oligocene.
Highlights
Detrital Cr-spinel is one of the major opaque heavy minerals in the sedimentary rocks, which is derived from the ultramafic and mafic rocks
We have studied the mode changes of the sandstone components for understanding the provenances of the Paleocene to the Miocene sandstones by ternary diagrams (QtFL and QmFL: 4)
The general dip direction of the Late Cretaceous-Paleocene basin was to the SW in front of the ophiolite succession
Summary
Detrital Cr-spinel is one of the major opaque heavy minerals in the sedimentary rocks, which is derived from the ultramafic and mafic rocks. The aim of this study is to determine the provenance and tectonic evolution of the proximal sediments of Zagros Orogeny from the earliest period after Neotethys ophiolite obduction (the Late Cretaceous to the Miocene) using modal analysis of sandstones and Cr-spinel geochemistry in Neyriz region. These kinds of study utilizing the tracking of rock outcrops through time can unravel paleotectonic evaluation of the Zagros Orogeny, and are useful in determining the inception of the Arabia Eurasia collision. This younger age indicates that the ophiolite could not has obducted before 36 Ma
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