Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6433865 | Tectonophysics | 2014 | 16 Pages |
â¢The Sarve-Abad ophiolites crop out in the Main Zagros Thrust Zone (Iran).â¢The Sarve-Abad ophiolites represent remnants of the Mesozoic southern Neo-Tethys.â¢The Sarve-Abad ophiolites originated from different mantle source compositions.â¢The Sarve-Abad ophiolites give new insights into the S Neo-Tethys mantle composition.â¢A new tectonic model is proposed for the genesis and evolution of the S Neo-Tethys.
The Sarve-Abad (Sawlava) ophiolites crop out in the Main Zagros Thrust Zone and represent remnants of the Mesozoic southern Neo-Tethys Ocean that was located between the Arabian shield and Sanandaj-Sirjan continental block. They consist of several incomplete ophiolitic sequences including gabbroic bodies, a dyke complex, and pillow lava sequences. These rocks generally range from sub-alkaline to transitional character. Mineral chemistry and whole-rock geochemistry indicate that they have compositions akin to enriched-type mid-ocean ridge basalts (E-MORB) and plume-type MORB (P-MORB). Nonetheless, the different depletion degrees in heavy rare earth elements (HREE), which can be observed in both E-MORB like and P-MORB like rocks enable two main basic chemical types of rocks to be distinguished as Type-I and Type-II. Type-I rocks are strongly depleted in HREE (YbNÂ <Â ~Â 6), whereas Type-II rocks are moderately depleted in HREE (YbNÂ >Â 9.0). Petrogenetic modeling shows that Type-I rocks originated from 7 to 16% polybaric partial melting of a MORB-type mantle source, which was significantly enriched by plume-type components. These rocks resulted from the mixing of variable fractions of melts generated in garnet-facies and the spinel-facies mantle. In contrast, Type-II rocks originated from 5 to 8% partial melting in the spinel-facies of a MORB-type source, which was moderately enriched by plume-type components. A possible tectono-magmatic model for the generation of the southern Neo-Tethys oceanic crust implies that the continental rift and subsequent oceanic spreading were associated with uprising of MORB-type asthenospheric mantle featuring plume-type component influences decreasing from deep to shallow mantle levels. These deep plume-type components were most likely inherited from Carboniferous mantle plume activity that was associated with the opening of Paleo-Tethys in the same area.
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