Browsing by Author "Li, X.H."
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Item Sims zircon U-Pb geochronology and Sr-Nd isotopes of Ni-Cu-bearing mafic-ultramafic intrusions in Eastern Tianshan and beishan in correlation with flood basalts in Tarim Basin (NW China): Constraints on a CA. 280 MA mantle plume(American Journal of Science, 2011-06) Qin, K.Z.; Su, B.X.; Sakyi, P.A.; Tang, D.M.; Li, X.H.; Sun, H.; Xiao, Q.H.; Liu, P.P.Zircon SIMS U-Pb dating of the Poshi, Hongshishan, Bijiashan, and Huangshan Ni-Cu-bearing and Xiangshan Ni-Cu-Ti-Fe-bearing mafic-ultramafic intrusions in the Eastern Tianshan and Beishan Rift yields a relatively restricted range of 278.6 Ma to 284.0 Ma. The histogram of compiled age data of basalts in the Tarim Basin and mafic-ultramafic intrusions in the Eastern Tianshan and Beishan Rift has a peak of 280 Ma, which probably represents the time of mantle plume activity. The basalts have lower εNd(t) values in the range of -9.2 ~ -1.7 and Mg# of <50, and higher TiO2 contents (>2 wt.%), indicating that they were generated directly from a peripheral zone of the mantle plume by low degree of melting. The mafic-ultramafic intrusions have higher εNd(t) of -1.3~11.2 and Mg# of 33~90, and lower TiO 2 < 1.8 weight percent, suggesting that their parental magmas were produced from lithospheric mantle source by high degree of melting due to higher temperature of the mantle plume head. A possible mantle plume model beneath lithospheric mantle of the Tarim Basin, Tianshan and Beishan and its spatial framework is suggested.Item U-pb ages and hf-o isotopes of zircons from late paleozoic mafic-ultramafic units in the southern central asian orogenic belt: Tectonic implications and evidence for an early-permian mantle plume(Gondwana Research, 2011-09) Su, B.X.; Qin, K.Z.; Sakyi, P.A.; Li, X.H.; Yang, Y.H.; Sun, H.; Tang, D.M.; Liu, P.P.; Xiao, Q.H.; Malaviarachchi, S.P.K.U-Pb age and Hf-O isotope data of zircons from the mafic-ultramafic complexes and their related rhyolites and granites in the Eastern Tianshan and Beishan regions were obtained by SIMS and LA-ICPMS. The Hf-O isotopic composition and Hf model age of the zircons are closely related to their tectonic setting and formation age. The zircons from the mafic-ultramafic complexes in the Bogeda-Haerlike and Jueluotage belts have higher εHf(t) (+8-+17) and lower δ18O (+4‰-+6‰), whereas most of the zircons in the gabbros, granites and rhyolite from the Middle Tianshan Massif and Beishan Rift display lower εHf(t) (0-+8) and higher ε18O (+5‰-+8‰). The positive εHf(t) and relatively lower δ18O values suggest that these mafic-ultramafic complexes were derived from depleted mantle which was subjected to subduction-related modification processes. The Hf isotopic composition of zircons in the granites has revealed that the growth of juvenile crust was also very significant in the southern margin of the Central Asian Orogenic Belt during the Paleozoic. The Hf model ages of the analyzed zircons, together with the regional geology suggest that the Beishan area had a northward subduction, possibly from ca. 900Ma to ca. 400Ma, whereas the Eastern Tianshan had a south-directed subduction most likely from ca. 600Ma to ca. 310Ma. Additionally, zircons with ca. 280Ma U-Pb ages display wider and more scattered εHf(t) and δ18O variations than the relatively older and younger ones, which further support the Early Permian mantle plume model. © 2010 International Association for Gondwana Research.