Petrogenesis of late Triassic post-collisional basaltic rocks of the Lancangjiang tectonic zone, southwest China, and tectonic implications for the evolution of the eastern Paleotethys Geochronological and geochemical constraints

The Xiaodingxi and Manghuihe volcanic sequences represent key components of the Lancangjiang igneous zone in southwest China Their petrogenesis provides important constraints on the tectonic evolution of the eastern Paleotethys ocean The basaltic rocks from the Xiaodingxi and Manghuihe sequences yield SHRIMP zircon U-Pb weighted mean ages of 214 +/- 7 Ma and 210 +/- 22 Ma respectively which is 15-20 Ma younger than the ages of the syn-collisional granite magmatism (230-241 Ma) Samples from the volcanic sequences are dominated by alkaline basalts and basaltic andesites and can be geochemically classified into two groups Group 1 samples mainly from the Xiaodingxi sequence and the lower part of the Manghuihe sequence are characterized by low MgO (1 49-7 50 wt %) and Zr/Nb (9 4-15 3) and high Al2O3 (15 95-18 39 wt %) They are enriched in LILE and LREE contents and depleted in HFSE and have Sr-87/Sr-86(t) ratios of 0 705473-0 706972 epsilon(Nd)(t) of -1 47-075 and similar Pb isotopic compositions to the global average composition of pelagic sediments In contrast Group 2 samples from the middle-upper parts of the Manghuihe sequence have similar Al2O3 (16 62-18 23 wt %) but higher MgO (808-11 74 wt %) and Zr/Nb (15 9-23 9) than those of Group 1 samples They exhibit relatively flat REE patterns significantly negative Nb-Ta and Th-U anomalies and positive Sr anomalies In comparison with Group 1 Group 2 samples show higher Cr Ni contents and epsilon(Nd)(t) values (1 17-5 02) and lower Sr-87/Sr-86(t) and Pb isotopic ratios (Delta 8/4 = 43 2-598 and Delta 7/4 = 11 8-198) The geochemical data suggest that Group 1 samples might be the differentiated product of primitive high MgO and low Al2O3 melts originating from a refractory modified mantle with the involvement of 5-10% recycled pelagic sediments The parental magma for Group 2 samples may have been derived from a plagioclase-rich garnet-free source comprising 80-85% fluid-metasomatized and 15-20% asthenospheric components Based on all available data a tectonic model involving eastward subduction in the Permian and collision in the Triassic can be proposed for the evolution of the eastern Paleotethys ocean During the late Triassic the progressive upwelling of the asthenospheric mantle shortly after slab detachment may have led to the melting of the metasomatized mantle wedge resulting in the post-collisional Group 1 and Group 2 magmas (C) 2010 Elsevier B V All rights reserved