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Identification of the Early Jurassic mylonitic granitic pluton and tectonic implications in Namling area,southern Tibet
详细信息       来源:Geoscience Frontiers    发布日期:2021年3月15日
  • 标题:Identification of the Early Jurassic mylonitic granitic pluton and tectonic implications in Namling area,southern Tibet
  • 关键词:Sr-Nd-Hf-O;isotopes;SHRIMP;U-Pb;dating;Early;Jurassic;Mylonitic;granitic;pluton;Gangdese;belt
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A number of studies revealed that the Gangdese magmatic belt of southern Tibet was closely related to the northward subduction of the Neo-Tethys oceanic lithosphere and Indo-Asian collision. However, pre-Cretaceous magmatism is still poorly constrained in the Gangdese magmatic belt, southern Tibet. Here, we conducted systematically geochronology and geochemistry studies on a newly-identified granitic pluton in the middle Gangdese magmatic belt(Namling area), southern Tibet. Zircon SHRIMP Ⅱ U–Pb dating for one representative sample gives a weighted age of 184.2±1.8 Ma(MSWD=±1.11), corresponding to emplacement and crystallization age of the granitic pluton in the Early Jurassic(Pliensbachian). High SiO2(68.9–72.1 wt.%) contents and intermediate Mg#values(35–38) together suggest that the newly-identified granitic pluton was probably formed by partial melting of crustal material with minor injection of mantle-derived magma, precluding an origin from melting of metasedimentary rocks that are characterized by low Mg# and high zircon δ18O values(>8‰). Geochemically, the newly-identified granitic pluton belongs to typical I-type granitic affinity, whereas this is inconsistent with aluminium saturation index(ASI ? A/CNK ratios) and geochemical signatures. This suggests that zircon oxygen isotopes(4.30‰–5.28‰) and mineral features(lacking Al-rich minerals) are reliable indicators for discriminating granitic origin. Significantly depleted whole-rock Sr-Nd-Hf isotopic compositions and zircon εHf(t) values indicate that the granitic pluton was derived from partial melting of depleted arc-type lavas. In addition, the granitic pluton shows zircon δ18O values ranging from 4.30‰ to 5.28‰(with a mean value of 4.77‰) that are consistent with mantle-derived zircon values(5.3‰±0.6‰) within the uncertainties, indicating that the granitic pluton might have experienced weak short-living high-temperature hydrous fluid-rock interaction. Combined with the Sr-Nd-Hf-O isotopes and geochemical signatures, we propose that the newly-identified granitic pluton was originated from partial melting of depleted mafic lower crust, and experienced only negligible wall-rock contamination during ascent. Integrated with published data, we also propose that the initial subduction of the Neo-Tethys oceanic lithosphere occurred no later than the Pliensbachian of the Early Jurassic.

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