Geochronology of high-grade metamorphic rocks from the Anjul area, Lut block, eastern Iran

Abstract

U–Pb and Rb–Sr geochronology has been used to constrain robust ages for leucosomes and high-grade gneisses from the Anjul area in the eastern part of the Lut block, Iran. The new results do not support the previously suggested Proterozoic age for this occurrence, but instead reveal the importance of Jurassic and Cretaceous magmatic and/or metamorphic processes. Ionprobe U–Pb zircon dating yielded four age groups (>200, ∼168, ∼120 and ∼110Ma). Textural observations suggest that ages >200Ma represent inherited zircons. The majority of zircons yielded Jurassic (168±2 and 169±2Ma) and Cretaceous (120±3, 108±2, 111±3Ma) intercept ages. Explanations for the two dominant age groups (∼168 and ∼110Ma) include the following alternatives: (a) the Jurassic ages constrain the protolith age of magmatic precursors that experienced metamorphic overprinting at ∼110Ma; and (b) both the ∼168Ma and ∼110Ma ages indicate the time of metamorphic episodes, e.g. zircon-formation during different anatectic events or migmatization followed by a lower temperature overprint associated with new zircon growth. Multi-point Rb–Sr mineral isochrons of three additional gneisses indicated ages of 102±3Ma, 102±1Ma and 97±2Ma. These ages further document the importance of Cretaceous metamorphism in the Anjul area. The difference compared to the U–Pb ages of zircon overgrowths is interpreted to indicate cooling after a thermal event with or without partial melting. The two major occurrences of metamorphic rocks in the eastern Lut block are exposed in the Deh-Salm and the Anjul region. These occurrences may represent two different segments of a single metamorphic belt that can broadly be related to accretionary and/or collisional processes induced by convergence between the Afro-Arabian and Eurasian plates. Our geochronological study provides a conclusive evidence for Cretaceous metamorphism. We speculate that zircon overgrowths with Cretaceous ages reflect metamorphic processes unrelated to melt formation that overprinted a pre-existing population recording Jurassic anatexis.