Neotethyan Subduction Ignited the Iran Arc and Backarc Differently

Most arcs show systematic temporal and spatial variations in magmatism with clear shifts in igneous rock compositions between those of the magmatic front (MF) and those in the backarc (BA). It is unclear if similar magmatic polarity is seen for extensional continental arcs. Herein, we use geochemica...

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Bibliographic Details
Published in:Journal of geophysical research. Solid earth 2020-05, Vol.125 (5), p.n/a
Main Authors: Shafaii Moghadam, H., Li, Q. L., Li, X. H., Stern, R. J., Levresse, G., Santos, J. F., Lopez Martinez, M., Ducea, M. N., Ghorbani, G., Hassannezhad, A.
Format: Article
Language:English
Subjects:
Arc magmatism
Composition
Compression
continental arc
Continental crust
extension
flare‐up
Geochemistry
Geochronology
Geochronometry
Geodynamics
Geophysics
Igneous rocks
Iran
Isotope composition
Lava
Lead
Lithosphere
Magma
Paleogene
Polarity
Radiometric dating
Spatial variations
Subduction
Subduction (geology)
Subduction zones
Tectonic processes
Tectonics
Tectonophysics
Urumieh‐Dokhtar Magmatic Belt
Zircon
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Summary:Most arcs show systematic temporal and spatial variations in magmatism with clear shifts in igneous rock compositions between those of the magmatic front (MF) and those in the backarc (BA). It is unclear if similar magmatic polarity is seen for extensional continental arcs. Herein, we use geochemical and isotopic characteristics coupled with zircon U‐Pb geochronology to identify the different magmatic style of the Iran convergent margin, an extensional system that evolved over 100 Myr. Our new and compiled U‐Pb ages indicate that major magmatic episodes for the NE Iran BA occurred at 110–80, 75–50, 50–35, 35–20, and 15–10 Ma. In contrast to NE Iran BA magmatic episodes, compiled data from MF display two main magmatic episodes at 95–75 and 55–5 Ma, indicating more continuous magmatism for the MF than for the BA. We show that Paleogene Iran serves as a useful example of a continental arc under extension. Our data also suggest that there is not a clear relationship between the subduction velocity of Neotethyan Ocean beneath Iran and magmatic activity in Iran. Our results imply that the isotopic compositions of Iran BA igneous rocks do not directly correspond to the changes in tectonic processes or geodynamics, but other parameters such as the composition of lithosphere and melt source(s) should be considered. In addition, changes in subduction zone dynamics and contractional versus extensional tectonic regimes influenced the composition of MF and BA magmatic rocks. These controls diminished the geochemical and isotopic variations between the magmatic front and backarc. Plain Language Summary Most arcs show systematic temporal and spatial variations in magmatism with a clear shift in the composition of igneous products between those of the magmatic front and those in the backarc (BA). Our U‐Pb ages for the NE Iran BA identify five magmatic episodes for the NE Iran backarc, which occurred at 110–80 million years ago (Ma), 75–50, 50–35, 35–20, and 15–10 Ma. The 110–80 Ma magmatic episode was a time of strong regional extension due to subduction initiation along the Zagros suture zone, while the younger episodes reflect maturation of the magmatic arc. The first magmatic episode is represented by magmas dominated by inputs from the underlying mantle, as does the next episode (75–50 Ma). The third pulse (50–35 Ma) shows increasing contributions from the underlying crust. The fourth magmatic pulse occurred at 35–20 Ma, and the volume of these magmas was less than ot
ISSN:2169-9313
2169-9356
DOI:10.1029/2019JB018460