学术成果

第一作者成果：

李军勇,王孝磊,谷志东,黄煜,王国光.华南新元古代多地体汇聚—拼贴与资源效应[J/OL].沉积学报,1-19[2024-09-03].https://doi.org/10.14027/j.issn.1000-0550.2024.089.

Li, J. Y ., Wang, X.L., Cawood, P.A., Gu, Z.D., Guan, Y., 2024. Neoproterozoic low-T/P metamorphism in the Yangtze Block manifests a long-lived subduction girdle around Rodina. Earth and Planetary Science Letters, 634, 118678.

Li, J. Y ., Wang, X.L., Gu, Z.D., Wang, D., Du, D.H., 2024. Geochemical diversity of continental arc basaltic mushy reservoirs driven by reactive melt infiltration. Communications Earth & Environment, 5, 109. https://doi.org/10.1038/s43247-024-01279-w.

Li, J. Y. , Wang, X.L., Wang, D., Du, D.H., Yu, J.H., Gu, Z.-D., Huang, Y., Li, L.-S., 2021. Pre-Neoproterozoic continental growth of the Yangtze Block: from continental rifting to subduction–accretion. Precambrian Research 355, 106081.

Li, J. Y.,Tang, M., Lee, C.-T. A., Wang, X.L., Gu, Z.D., Xia, X.P., Wang, D., Du, D.H., Li, L.S., 2021. Rapid endogenic rock recycling in magmatic arcs. Nature Communications, doi: 10.1038/s41467-021-23797-3.

Li, J. Y., Wang, X.L., Gu, Z.D., 2018. Petrogenesis of the Jiaoziding granitoids and associated basaltic porphyries: Implications for extensive early Neoproterozoic arc magmatism in western Yangtze Block. Lithos 296–299, 547–562.

Li, J. Y.,Wang, X.L., Gu, Z.D., 2018. Early Neoproterozoic arc magmatism of the Tongmuliang Group on the northwestern margin of the Yangtze Block: Implications for Rodinia assembly. Precambrian Research 309, 181–197.

Li, J. Y.,Wang, X.L., Zhang, F.F., Zhou, X.H., Shu, X.J., 2016. A rhythmic source change of the Neoproterozoic basement meta-sedimentary sequences in the Jiangnan Orogen: Implications for tectonic evolution on the southeastern margin of the Yangtze Block. Precambrian Research 280, 46–60.

参与研究：

Zhang, Y.Z., Wang, X.L., Guan, Y., Hu, X.M., Li, J.Y., Du, D.H., Wang, D., 2024. Compositional changes with incremental growth of the Quxu granite batholith, southern Tibet: evidence from geochronology and geochemistry. Lithos, 466–

Huang, Y., Wang, X.L.*, Li, J.Y., Wang, D., Jiang, C.-H.,Li, L.S., 2021. Early Neoproterozoic tectonic evolution of northern Yangtze Block: Insights from sedimentary sequences from the Dahongshan area. Precambrian Research, 365, 106382, https://doi.org/10.1016/j.precamres.2021.106382.467, 107466, https://doi.org/10.1016/j.lithos.2023.107466.

Huang, Y., Wang, X.L., Li, J.-Y., Li, R.C., Du, D.-H., Jiang, C.H., Li, L.S., Ding N., 2023. From arc accretion to within-plate extension: Geochronology and geochemistry of the Neoproterozoic magmatism on the northern margin of the Yangtze Block. Precambrian Research, 395, 107133, https://doi.org/10.1016/j.precamres.2023.107133.

Li, L.-S., Wang, X.L., Yakymchuk, C., Schorn, S., Yu, J.-H., Wang, D., Li, J.Y., Du, D.H., Huang, Y., 2022. A refined study of Paleoproterozoic high-pressure granulite-facies metamorphism in the Kongling Complex of northern Yangtze Block. Precambrian Research, 378, 106741, https://doi.org/10.1016/j.precamres.2022.106741.Du, D.H., Wang, X.L., Yang, T., Chen, X., Li, J.Y., Li, W.Q.*, 2017. Origin of heavy Fe isotope compositions in high-silica igneous rocks: a rhyolite perspective. Geochimica et Cosmochimica Acta 218, 58–72.

Wang, D., Wang, X.L., Cai, Y., Li, J.Y., Du, D.H., Shu, X.J., 2022. Exploring the Sn–W metallogenic potential of Late Jurassic Ganfang-Guyangzhai granite suite, South China: Zircon and apatite geochemistry.Ore Geology Reviews, 144, 104863. https://doi.org/10.1016/j.oregeorev.2022.104863.Sun, Z.M., Wang, X.L., Qi, L., Zhang, F.F., Wang, D., Li, J.Y., Yu, M.G., Shu, X.J., 2018. Formation of the Neoproterozoic ophiolites in southern China: new constraints from trace element and PGE geochemistry and Os isotopes. Precambrian Research 309, 88–101.

Wang, D., Wang, X.L., Bindeman, I.N., Du, D.-H., Li, J.Y., Jiang, C.-H., 2021. Ephemeral magma reservoirs during the incremental growth of the Neoproterozoic Jiuling composite batholith in South China. Journal of Geophysical Research: Solid Earth,126, e2021JB022758, https://doi.org/10.1029/2021JB022758.

Wang, X.L., Wang, D., Du, D.H., Li, J.Y., 2021. Diversity of granitic rocks constrained by disequilibrium melting and subsequent incremental emplacement and differentiation. Lithos, 106255.

Wang, X.L., Tang, M., Moyen, J.-F., Wang, D., Kröner, A., Hawkesworth, C.J., Xia, X.P., Xie, H.Q., Anhaeusser, C.R., Hofmann, A., Li, J.Y., Li, L.S., 2021. The onset of deep recycling of supracrustal materials at the Paleo-Mesoarchean boundary. National Science Review, https://doi.org/10.1093/nsr/nwab136.

Zhang, Y.-Z., Wang, X.L., Li, J.Y., He, Z.-Y., Zhang, F.-F., Chen, X., Wang, S., Du, D.-H., Huang, Y., Jiang, C.-H., 2021. Oligocene leucogranites of the Gangdese batholith, southern Tibet: fractional crystallization of felsic melts from juvenile lower crust. Journal of Petrology, 62(11), 1-29, https://doi.org/10.1093/petrology/egab076.

Huang, D.L., Wang, X.L., Xia, X.P., Wan, Y.S., Zhang, F.F., Li, J.Y., Du, D.H., 2019.Neoproterozoic low-δ¹⁸O zircons revisited: implications for Rodinia configuration. Geophysical Research Letters 46,678–688..

Sun, Z.M., Wang, X.L., Zhang, F.-F., Xie, H.Q., Zhao, K., Li, J.Y., 2020. Diversity of felsic rocks in oceanic crust: Implications from the Neoproterozoic plagiogranites within the Northeast Jiangxi ophiolite, southern China.Journal of Geophysical Research: Solid Earth 125, e2019JB017414

Huang, D.L., Wang, X.L., Xia, X.P., Zhang, F.F., Wang, D., Sun, Z.M., Li, J.Y., Yang, Q., Du, D.H., Chen, X. 2020. Crustal anatexis recorded by zircon grains from early Paleozoic granitic rocks in Southeast China.Lithos 370–371, 105598.

王孝磊, 刘福来, 李军勇,王迪. 2020. 前寒武纪俯冲和板块构造的渐进式演变. 中国科学-地球科学, 50(12), 1947 ~ 1968.

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