Xiao-Lei Wang

Xiao-Lei Wang

Professor of Nanjing University (NJU) School of Earth Sciences and Engineering, NJU 163 Xianlin Street, Nanjing 210023, China

Date of Birth: June 30, 1979

Place of Birth: Henan Province, China

Telephone: +86-25-89680896

Fax: +86-25-83686016

E-mail Address: wxl@nju.edu.cn

ResearcherID URL: http://www.researcherid.com/rid/F-6581-2011

Personal website: https://es.nju.edu.cn/wxl_Group/main.psp

Education

Ph.D., 2006, NanjingUniversity (Nanjing,  China)

B.S., 2001, Nanjing University (Nanjing, China)

Working/visiting Experiences:

2019–present, Deputy Dean of the School of Earth Sciences and Engineering, NJU

2016– present, Deputy Dean of the State Key Laboratory for Mineral Deposits Research

2014– present, Full Professor of Nanjing University

2008–2013, Associate Professor of Nanjing University

2006–2008, Lecture of Nanjing University

2011.9 – 2013.9, Visiting Professor (Collaboration with Prof. John W. Valley) at the University of Wisconsin-Madison, USA

2007 – 2009, Post-doctoral research (with Prof. Yong-Fei Zheng) at the University of Science and Technology of China

May-July of 2007, Visiting Scholar (Research collaboration with Prof. Guochun Zhao) at the University of Hong Kong

October-November of 2006, Visiting Scholar (Research collaboration with Profs. WL Griffin and Sue O’Reilley) at GEMOC of the Macquarie University

Research Interests:

Precambrian geology; Granites and crustal evolution; Neoproterozoic magmatism in South China Block; Geochronology; Geochemistry; Metal stable isotopes; Early Earth

Teaching

Principles of Petrology

Igneous and Metamorphic Petrology

Research Progress of Petrology

Field training of General Geology

Academic Service

Dean of Committee on Igneous Petrology, Chinese Society for Mineralogy, Petrology and Geochemistry

Committee member of Division on Petrology, Geological Society of China

Committee member of Division on Continental Crust and Mantle, Geological Society of China

Committee member of International Precambrian Research Center of China

Associate Editor of Acta Petrologica Sinica (2023-2027)

Editorial board member of Science China Earth Sciences(2023-2027)

Editorial board member of Precambrian Research(2019.4 - present)

Editorial board member of Scientific Reports(2015.4 - present)

Editorial board member of Minerals (2021.7 - present)

Editorial board member of East China Geology(2018.5 - present)

List of Publications:

(*, corresponding author)

 Papers:

Year-2023

(104) Zhang, H.J.*, Lü, Q.T., Wang, X.L., Han, S.C., Liu, L.J., Gao, L., Wang, R., Hou, Z.Q.*, 2023. Seismically imaged lithospheric delamination and its controls on the Mesozoic Magmatic Province in South China. Nature Communications, accepted.

(103) Li, R.C., Wang, X.L.* , Guan, Y., Gu, J., Tian, L.-L.. 2023. The feasibility of using pyrite standard to calibrate sulfur isotope ratio of marcasite during SIMS analysis. Journal of Analytical Atomic Spectrometry, https://doi.org/10.1039/D3JA00009E.

(102)Xiong, D.Y., Wang, X.L.*, 2023. A supercontinental perspective for the formation of Precambrian pegmatitic lithium deposits. East China Geology, 44(1): 1-12. (in Chinese with English abstract)

(101) Jiang, C.H., Wang, D., Du, D.H., Wang, X.L.*, 2023. Estimation of an ephemeral cooling for silicic magma reservoirs using thermal simulation. Journal of Asian Earth Sciences, 241: 105442, https://doi.org/10.1016/j.jseaes.2022.105442.

Year-2022

(100) Li, R.C., Wang, X.L.*, 2022. External fluid incursion during Cu-mineralization stage of Mina Justa iron oxide copper-gold (IOCG) deposit: Evidence from triple sulfur isotope geochemistry of chalcopyrite.Ore Geology Reviews, 149, 105102, https://doi.org/10.1016/j.oregeorev.2022.105102.

(99) Jiang, C.H., Du, D.H., Wang, X.L.*, 2022. Degassing and environmental effect of intracontinental transcrustal magmatic system. Acta Petrologica Sinica, 38(5), 1360-1374. doi: 10.18654/1000-0569/2022.05.06.

(98) 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.

(97) Jiang, W., Yu, J.-H.*, Griffin, W.L., Wang, F.Q., Wang, X.L., Pham T.H., Nguyen, D.L., 2022. Where did the Kontum Massif in central Vietnam come from?. Precambrian Research, 377, 106725, https://doi.org/10.1016/j.precamres.2022.106725.

(96) 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.

(95) Nguyen, D.L., Wang, R.C.*, Yu, J.H.*, Wang, X.L., Nguyen, Q.L., Pham, T.H., Do, V.N., 2022. Geochronology and geochemistry of the PiaOac granites: Implication for Late Cretaceous magmatism and metallogeny in NE Vietnam. Ore Geology Review, 142, 104727. https://doi.org/10.1016/j.oregeorev.2022.104727.

(94) Pham T.H.*, Pham M., Wang, X.L., Anh T.Q.N., Kenta K., Truong C.C., 2022. Zircon U–Pb geochronology and Sr–Nd–Hf isotopic compositions of the felsic dykes from the Dalat zone, southern Vietnam: petrogenesis and geological significance. International Geology Review, 64(19): 2822-2836, https://doi.org/10.1080/00206814.2021.2015632.

(93) Du, D.H., Tang, M., Li, W., Kay, S.M., Wang, X.L.*, 2022. What drives Fe depletion in calc-alkaline magma differentiation: insights from Fe isotopes. Geology, 50(5): 552–556, https://doi.org/10.1130/G49705.1. (Brief introduction:https://lamd.nju.edu.cn/8f/a3/c4035a561059/page.htm)

(92) Du, D.H., Wang, X.L.*, Wang, S., Miller, C.F., Xu, X., Chen, X., Zhang, F.F., 2022. Deciphering cryptic multi-stage crystal-melt separation during construction of the Tonglu volcanic-plutonic complex, SE China. Journal of Petrology, 63(1), egab098, https://doi.org/10.1093/petrology/egab098. (Brief introduction:https://lamd.nju.edu.cn/8a/76/c4035a559734/page.htm)

(91) 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., 2022. The onset of deep recycling of supracrustal materials at the Paleo-Mesoarchean boundary. National Science Review 9, nwab136. https://doi.org/10.1093/nsr/nwab136. (Brief introduction:https://lamd.nju.edu.cn/34/94/c4035a537748/page.htm)

(90) Xu, H., Qiu, J.S., Wang, X.L.*, Hong, Y.-F., Wang, R.-Q., Li, Y.-F., 2022. Slow crystal settling controls the diversity of high-silica granites of the Late Cretaceous Shengsi Pluton at northeastern tip of southeast China. Journal of Asian Earth Sciences, 223, 104986, https://doi.org/10.1016/j.jseaes.2021.104986.

Year-2021

(89) 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. (Brief introduction:https://lamd.nju.edu.cn/7f/55/c4035a556885/page.htm)

(88) 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. (Brief introduction: https://lamd.nju.edu.cn/61/ee/c4035a549358/page.htm)

(87) Chen, Y.J., Xue, L.Z., Wang, X.L., Zhao, Z.B., Han, J.S., Zhou, K.F., 2021. Progress in geological study of pegmatite type lithium deposits in the world.  Acta Geologica Sinica, 95(10): 2971-2995 (in Chinese with English Abstract).

(86) 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.

(85) Wang, R.C.*, Ni, P., Wang, X.L., 2021. Mesozoic magmatism and mineralization in southeastern China: An introduction. Journal of Asian Earth Sciences, 219, 104921. https://doi.org/10.1016/j.jseaes.2021.104921.

(84) Zheng, Y.F.*, Miller, C.F., Xu, X., Moyen, J.F., Wang, X.L., 2021. Preface to the origin of granites and related rocks. Lithos, 402–403, 106380, https://doi.org/10.1016/j.lithos.2021.106380.

(83) Li, R., Wang, X.L.*, Chen, H.*, Zheng, H., Guan, Y., Gu, J., Jin, G., 2021. NJUCal-1: A new calcite oxygen isotope reference material for microbeam analysis. Geostandards and Geoanalytical Research, 45, 747-754, https://doi.org/10.1111/ggr.12403.

(82) 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, 402–403, 106255, https://doi.org/10.1016/j.lithos.2021.106255.

(81) 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, 12, 3533, https://doi.org/10.1038/s41467-021-23797-3. (Brief introduction: https://lamd.nju.edu.cn/12/e6/c4035a529126/page.htm)

(80) Li, R.C., Chen, H.Y.*, Wu, N.P., Wang, X.L., Xia, X.P., 2021. Multiple sulfur isotopes in post-Archean deposits as a potential tracer for fluid mixing processes: An example from an iron oxide–copper–gold (IOCG) deposit in southern Peru.Chemical Geology,575, 120230, https://doi.org/10.1016/j.chemgeo.2021.120230.

(79) Wang, X.L.*, Liu, J.X., Lü, Q.-T., Wang, S., Wang, D., Chen, X., 2021. Evolution of deep crustal hot zones constrained by the diversity of Late Mesozoic magmatic rocks in SE China.Ore Geology Reviews,134, 104143, https://doi.org/10.1016/j.oregeorev.2021.104143.

(78) 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, https://doi.org/10.1016/j.precamres.2020.106081.

(77) Wang, D., Wang, X.L.*. 2021. Dual mixing for the formation of Neoproterozoic granitic intrusions within the composite Jiuling batholith, South China. Contributions to Mineralogy and Petrology,176, 7, https://doi.org/10.1007/s00410-020-01757-2. (Brief introduction:https://lamd.nju.edu.cn/c4/ab/c4035a509099/page.htm)

Year-2020

(76) Wang, X.L.*, Liu, F.-L., Li, J.-Y., Wang, D. 2020. The progressive onset and evolution of Precambrian subduction and plate tectonics. Science China Earth Sciences63(12): 2068–2086, https://doi.org/10.1007/s11430-020-9698-0.

(75) Xu, X.S.*, Wang, X.L., Zhao, K., Du, D.H., 2020. Progresses and tendencies of granite researches in last decade: A review. Bulletin of Mineralogy, Petrology and Geochemistry39(5), 899–911 (in Chinese with English Abstract).

(74) Jiang, W., Yu, J.H.*, Wang, X.L., Griffin, W.L., T. H. Pham, D.L. Nguyen, Wang, F.Q., 2020. Early Paleozoic magmatism in northern Kontum Massif, Central Vietnam: Insights into tectonic evolution of the eastern Indochina Block. Lithos376–377, 105750. https://doi.org/10.1016/j.lithos.2020.105750.

(73) Jiang, C.-H., Wang, X.L.*, Wang, S., Du, D.H., Huang, Y., Zhang Y.-Z., Wang, D. 2020. Paleoproterozoic basement beneath the Eastern Cathaysia Block revealed by zircon xenocrysts from late Mesozoic volcanics. Precambrian Research350, 105922. https://doi.org/10.1016/j.precamres.2020.105922

(72) Liu, J.X., Wang, S., Wang, X.L.*, Du, D.H., Xing, G.F., Fu, J.M., Chen, X., Sun, Z.M., 2020. Refining the spatio-temporal distributions of Mesozoic granitoids and volcanic rocks in SE China. Journal of Asian Earth Sciences201, 104503, doi:10.1016/j.jseaes.2020.104503.

(71) Wang, G.-G.*, Ni, P.*, Li, L., Wang, X.L., Zhu, A.-D., Zhang, Y.-H., Zhang, X., Liu, Z., Li, B., 2020. Petrogenesis of the Middle Jurassic andesitic dikes in the giant Dexing porphyry copper ore field, South China: Implications for mineralization. Journal of Asian Earth Sciences,196, 104375, https://doi.org/10.1016/j.jseaes.2020.104375.

(70) Li, W.-S., Ni, P.*, Wang, G.-G., Yang, Y.-L., Pan, J.-Y., Wang, X.L., Chen, L.-L., Fan, M.-S., 2020. A possible linkage between highly fractionated granitoids and associated W- mineralization in the Mesozoic Yaogangxian granitic intrusion, Nanling region, South China. Journal of Asian Earth Sciences,193, 104314, https://doi.org/10.1016/j.jseaes.2020.104314.

(69) Wang, S., Wang, X.L.*, Du, D.H. 2020. Studies on the Volcanic–Plutonic Connection.Geological Journal of China Universities26(5): 497-505. (in Chinese with English abstract)

(68) 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.Lithos370–371, 105598, doi: 10.1016/j.lithos.2020.105598.

(67) Sun, Z.-M., Wang, X.-L.*, Zhang, F.-F., Xie, H.-Q., Zhao, K., and 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 Earth125, e2019JB017414, DOI:10.1029/2019JB017414.

Year-2019

(66) Du, D. H., Li, W., Wang, X.L.*, Shu, X.J., Yang, T., Sun, T., 2019. Fe isotopic fractionation during the magmatic–hydrothermal stage of granitic magmatism. Lithos350-351, 105265, doi: 10.1016/j.lithos.2019.105265.

(65) Huang, D.L., Wang, X.L.*, 2019. Reviews of geochronology, geochemistry, and geodynamic processes of Ordovician-Devonian granitic rocks in southeast China. Journal of Asian Earth Sciences184, 104001, doi: 10.1016/j.jseaes.2019.104001.

(64)Zhu, G.L., Yu, J. H.*, Zhou, X.Y., Wang, X.L., Wang, Y.D., 2019. The western boundary between the Yangtze and Cathaysia blocks, new constraints from the Pingbian Group sediments, southwest South China Block. Precambrian Research331, 105350.

(63)Chen, X., Lee, C.T., Wang, X.L.*, Tang, M., 2019. Influence of water on granite generation: Modeling and perspective.Journal of Asian Earth Sciences174, 126–134, doi:10.1016/j.jseaes.2018.12.001.

(62)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 Letters46,678–688. doi:10.1029/2018GL081117.

Year-2018

(61) Zhou, X.Y., Yu, J.-H.*, O'Reilly, S. Y., Griffin, W. L., Sun, T., Wang, X.L., Tran, M.D., Nguyen, D.L., 2018. Component variation in the late Neoproterozoic to Cambrian sedimentary rocks of SW China - NE Vietnam, and its tectonic significance. Precambrian Research, 308, 92–110, https://doi.org/10.1016/j.precamres.2018.02.003.

(60) Wang, G.G., Ni, P.*, Zhu, A.D., Wang, X.L., Li, L., Hu, J.S., Lin, W.H., Huang, B., 2018. 1.01–0.98 Ga mafic intra-plate magmatism and related Cu-Au mineralization in the eastern Jiangnan orogen: Evidence from Liujia and Tieshajie basalts. Precambrian Research309, 6–21, doi: 10.1016/j.precamres.2017.04.018.

(59) Zhao, J.H., Zhang, S.B., Wang, X.L., 2018. Neoproterozoic geology and reconstruction of South China. Precambrian Research309, 1–5, doi: 10.1016/j.precamres.2018.02.004.

(58) 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 Research309, 181–197, doi: 10.1016/j.precamres.2017.04.040.

(57) 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 Research309, 88–101, 10.1016/j.precamres.2017.12.042.

(56) Zhang, F.F., Wang, X.L.*, Sun, Z.M., Chen, X., Zhou, X.H., Yang, T., 2018. Geochemistry and zircon-apatite U-Pb geochronology of mafic dykes in the Shuangxiwu area: Constraints on the initiation of Neoproterozoic rifting in South China. Precambrian Research309, 138–151,doi: 10.1016/j.precamres.2017.04.008.

(55) Chen, X., Wang, X.L.*, Wang, D., Shu, X.J., 2018. Contrasting mantle-crust melting processes within orogenic belts: Implications from two episodes of mafic magmatism in the western segment of the Neoproterozoic Jiangnan Orogen in South China.  Precambrian Research309, 123–137, doi: 10.1016/j.precamres.2017.04.001

(54)Wang, D., Wang, X.L.*, Cai, Y., Goldstein, S.L., Yang, T., 2018. Do Hf isotopes in magmatic zircons represent those of their host rocks? Journal of Asian Earth Sciences154, 202-212, doi: 10.1016/j.jseaes.2017.12.025.

(53) 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. Lithos296–299, 547–562, doi:10.1016/j.lithos.2017.11.034.

Year-2017

(52) Ye, H., Wu, C.-Z.*, Yang, T., Santosh, M., Yao, X.-Z., Gao, B.-F., Wang, X.L., and Li, W.*, 2017. Updating the geologic barcodes for South China: discovery of Late Archean banded iron formations in the Yangtze Craton. Scientific Reports, 7, 15082, https://doi.org/10.1038/s41598-017-15013-4.

(51) Zhou XY, Yu JH*, O’Reilly SY, Griffin WL, Wang XL, and Sun T, 2017. Sources of the Nanwenhe - Song Chay granitic complex (SW China – NE Vietnam) and its tectonic significance. Lithos290-291, 76-93, doi:/10.1016/j.lithos.2017.07.017.

(50) Wang D, Wang XL*, Cai Y, Chen X, Zhang FR, and Zhang FF, 2017. Heterogeneous Conservation of Zircon Xenocrysts in Late Jurassic Granitic Intrusions within the Neoproterozoic Jiuling Batholith, South China: A Magma Chamber Growth Model in Deep Crustal Hot Zones. Journal of Petrology58(9), 1781-1810, doi:10.1093/petrology/egx074.

(49) Wang XL*, Zhou JC, Chen X, Zhang FF, Sun ZM, 2017. Some new research progresses and main scientific problems of granitic rocks. Bulletin of Mineralogy, Petrology and Geochemistry36(5), 714-735. (in Chinese with English abstract)

(48) Wang XL*, 2017. Some new research progresses and main scientific problems of granitic rocks. Acta Petrologica Sinica33(5), 1445-1458. (in Chinese with English abstract)

(47) Du DH, Wang XL*, Yang T, Chen X, Li JY, Li WQ*, 2017. Origin of heavy Fe isotope compositions in high-silica igneous rocks: a rhyolite perspective. Geochimica et Cosmochimica Acta218, 58–72, doi:10.1016/j.gca.2017.09.014.

(46) Zhang FF, Wang XL*, Wang D, Yu JH, Zhou XH, Sun ZM, 2017. Neoproterozoic backarc basin on the southeastern margin of the Yangtze block during Rodinia assembly: New evidence from provenance of detrital zircons and geochemistry of mafic rocks. GSA Bulletin129(7/8), 904-919, doi: 10.1130/B31528.1

Year-2016

(45) 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 Res.280, 46-60, doi: 10.1016/j.precamres.2016.04.012.

(44) Wang, G.-G., Ni, P.*, Zhao, C., Wang, X.-L., Li, P., Chen, H., Zhu, A.-D., and Li L., 2016. Spatio-temporal reconstruction of Late Mesozoic silicic large igneous province (SLIP) and related epithermal mineralization in South China: insights from the Zhilingtou volcanic-intrusive complex, Journal of Geophysical Research: Solid Earth121(11), 7903-7928, doi:10.1002/2016jb013060.

Year-2014

(43) Wang XL*, Coble M.A., Valley J.W., Shu X.J., Kitajima K., Spicuzza M.J., Sun T., 2014. Influence of radiation damage on Late Jurassic zircons from southern China: evidence from in situ measurements of oxygen isotopes, laser Raman, U-Pb ages, and trace elements. Chemical Geology389, 122-136, doi: 10.1016/j.chemgeo.2014.09.013.

(42) Xing GF*, Wang XL*, Wan YS, Chen ZH, Jiang Y, Kitajima K, Ushikubo T, Gopon P, 2014. Diversity in early crustal evolution: 4100 Ma zircons in the Cathaysia Block of southern China. Scientific Reports4, 5143, DOI:10.1038/srep05143.

(41)Chen X, Wang XL*, Gao JF, Shu XJ, Zhou JC, Qi L, 2014.Neoproterozoic chromite-bearing high-Mg diorites in the western part of the Jiangnan orogen, southern China: geochemistry, petrogenesis and tectonic implications. Lithos200–201, 35–48. doi: 10.1016/j.lithos.2014.04.007.

(40) Wang, XL*, Zhou, JC, Griffin WL, Zhao, GC, Yu, JH, Qiu, JS, Zhang, YJ, Xing, GF, 2014. Geochemical zonation across a Neoproterozoic orogenic belt: Isotopic evidence from granitoids and metasedimentary rocks of the Jiangnan orogen, China. Precambrian Research242, 154-171, doi:10.1016/j.precamres.2013.12.023.

(39) Tang, M., Wang X.L.*, Shu X.J., Yang, T., Wang, D., Gopon, P., 2014. Hafnium isotopic heterogeneity in zircons from granitic rocks: geochemical evaluation and modeling of zircon effect in crustal anatexis. Earth and Planetary Science Letters389, 188-199, doi:10.1016/j.epsl.2013.12.036.

Year-2013

(38) Wang D, Wang XL*, Zhou JC, Shu XJ, 2013. Unravelling the Precambrian crustal evolution by Neoproterozoic basal conglomerates, Jiangnan orogen: U-Pb and Hf isotopes of detrital zircons. Precambrian Research233, 223–236, doi:10.1016/j.precamres.2013.05.005.

(37) Wang XL*, Zhou JC, Wan YS, Kitajima K, Wang D, Bonamici C, Qiu JS and Sun T, 2013. Magmatic evolution and crustal recycling for Neoproterozoic strongly peraluminous granitoids from southern China: Hf and O isotopes in zircon. Earth and Planetary Science Letters366, 71–82, doi: 10.1016/j.epsl.2013.02.011.

(36) Shu XJ, Wang XL*, Sun T, Chen WF, Shen WZ, 2013. Crustal formation in the Nanling Range, South China Block: Hf isotope evidence of zircons from Phanerzoic granitoids.  Journal of Asian Earth Sciences74, 210–224, doi:10.1016/j.jseaes.2013.01.016.

(35) Wang XL*, Jiang SY, Dai BZ, Kern J, 2013. Lithospheric thinning and reworking of Late Archean juvenile crust on the southern margin of the North China Craton: evidence from the Longwangzhuang Paleoproterozoic A-type granites and their surrounding Cretaceous adakite-like granites. Geological Journal48(5), 498-515, doi: 10.1002/gj.2464.

(34) Wang, X.L.*, Yu, J.H., Shu, X.J., Tang, C.H., Xing, G.F., 2013. U-Pb geochronology of detrital zircons from the para-metamorphic rocks of the Zhoutan Group, central Jiangxi Province. Acta Petrologica Sinica29(3), 801–811 (in Chinese with English abstract).

Year-2012

(33) Wang, X.L.*, Shu, X.J., Xing, G.F., Xie, S.W., Zhang, C.H., Xia, H., 2012. LA-ICP-MS zircon U-Pb ages of the Shijiao-Huangshan intrusive rocks in Zhuji area, Zhejiang Province: implications for the petrogenesis of the ultramafic orbicular rocks. Geological Bulletin of China31(1), 75–81 (in Chinese with English abstract).

(32) Wang XL*, Shu XJ, Xu XS, Tang M, Gaschnig R, 2012. Petrogenesis of the Early Cretaceous adakite-like porphyries and associated basaltic andesites in the Jiangnan orogen, southern China. Journal of Asian Earth Sciences61, 243–256, doi:10.1016/j.jseaes.2012.10.017.

(31) Wang GG, Ni P*, Zhao KD, Wang XL, Liu JQ, Jiang SY, Chen H, 2012. Petrogenesis of the Middle Jurassic Yinshan volcanic-intusive complex, SE China: implications for tectonic evolution and Cu-Au mineralization. Lithos150, 135–154, doi:10.1016/j.lithos.2012.05.030.

(30) Wang XL*, Shu LS, Xing GF, Zhou JC, Tang M, Shu X, Qi L, Hu Y-H, 2012. Post-orogenic extension in the eastern part of the Jiangnan Orogen: evidence from ca 800-760 Ma volcanic rocks. Precambrian Research222-223, 404–423, doi: 10.1016/j.precamres.2011.07.003.

(29)Tang M., Wang XL, Xu X.-S.*, Zhu C., Cheng T., Yu Y., 2012. Neoproterozoic subducted materials in the generation of Mesozoic Luzong volcanic rocks: Evidence from apatite geochemistry and Hf–Nd isotopic decoupling. Gondwana Research21, 266–280, doi:10.1016/ j.gr.2011.05.009.

Year-2011

(28) Shu XJ, Wang XL*, Sun T, Xu XS, Dai MN, 2011. Trace elements, U–Pb ages and Hf isotopes of zircons from Mesozoic granites in the western Nanling Range, South China: implications for petrogenesis and W–Sn mineralization. Lithos127, 468–482, doi:10.1016/j.lithos.2011.09.019.

(27) Wang XL*, Jiang SY, Dai BZ, Griffin WL, Dai MN, Yang YH, 2011. Age, geochemistry and tectonic setting of the Neoproterozoic (ca 830 Ma) gabbros on the southern margin of the North China Craton. Precambrian Research190, 35–47, doi: 10.1016/j.precamres.2011.08.004.

Year-2010

(26) Wang XL*, Jiang SY, Dai BZ, 2010. Melting of enriched Archean subcontinental lithospheric mantle: Evidence from the ca. 1760 Ma volcanic rocks of the Xiong'er Group, southern margin of the North China Craton. Precambrian Research182, 204–216. doi:10.1016/ j.precamres.2010.08.007.

Year-2009

(25) Zhou JC*, Wang XL, Qiu JS, 2009. Some Neoproterozoic geological events involved in the development of the Jiangnan orogen. Geological Journal of China Universities15(4), 453–459 (in Chinese with English Abstract).

(24) Dai Bao-Zhang, Jiang Shao-Yong*, Wang Xiao-Lei. 2009. Petrogenesis of the granitic porphyry related to the giant molybdenum deposit in Donggou, Henan Province, China: Constraints from petrogeochemistry, zircon U-Pb chronology and Sr-Nd-Hf isotopes. Acta Petrologica Sinica25(11), 2889–2901 (in Chinese with English Abstract).

(23) Zhou JC*, Wang XL, Qiu JS, 2009. Geochronology of Neoproterozoic mafic rocks and sandstones from northeastern Guizhou, South China: Coeval arc magmatism and sedimentation. Precambrian Research170, 27–42 doi:10.1016/ j.precamres. 2008.11.002.

Year-2008

(22) Wang XL*, Zhao GC, Zhou JC, Liu YS, Hu J, 2008. Geochronology and Hf isotopes of zircon from volcanic rocks of the Shuangqiaoshan Group, South China: implications for the Neoproterozoic tectonic evolution of the eastern Jiangnan orogen. Gondwana Research14(3), 355–367. doi: 10.1016/j.gr.2008.03.001.

(21) Wang XL, Zhou JC*, Qiu JS, Jiang SY, Shi YR. 2008. Geochronology and geochemistry of Neoproterozoic mafic rocks from western Hunan, South China: implications for petrogenesis and post-orogenic extension. Geological Magazine145(2), 215–233.

(20) He ZY, Xu XS*, Wang XL, Chen R. 2008. Geochronology and geochemistry of shoshonitic volcanic in southern Jiangxi Province. Acta Petrologica Sinica24(11), 2524–2536.

(19) Zhou JC*, Wang XL, Qiu JS, 2008. Is the Jiangnan orogenic belt a Grenvillian orogenic belt: some problems about the Precambrian geology of South China. Geological Journal of China Universities14(1), 64–72 (in Chinese with English Abstract).

Year-2007

(18) Yu JH*, Wang LJ, Wang XL, Qiu JS, Zhao L, 2007. Geochemistry and geochronology of the Fucheng complex in the southeastern Jiangxi Province, China. Acta Petrologica Sinica23(6), 1441–1456 (in Chinese with English Abstract).

(17) Wang XL*, Zhou JC, W.L. Griffin, Wang RC, Qiu JS, S.Y. O’Reilly, Xu XS, Liu XM, Zhang GL, 2007. Detrital zircon geochronology of Precambrian basement sequences in the Jiangnan orogen: dating the assembly of the Yangtze and Cathaysia blocks. Precambrian Research159(1-2), 117-131. doi: 10.1016/j.precamres.2007.06.005.

(16) Xu XS*, O’Reilly SY, Griffin WL, Wang XL, Pearson NJ, He ZY. 2007. The Crust of Cathaysia: Age, Assembly and Reworking of Two Terranes. Precambrian Research158, 51–78.

Year-2006

(15) Hu J, Qiu JS*, Wang RC, Jiang SY, Ling HF, Wang XL. 2006. Zircon U-Pb geochronology, biotite mineral chemistry and their petrogenetic implications of the Longwo and Baishigang plutons in Guangdong province. Acta Petrologica Sinica22(10), 2464–2474 (in Chinese with English Abstract).

(14) Zhou JC*, Jiang SY, Wang XL, Yang JH, Zhang MQ. 2006. Re-Os isotopic compositions of late Mesozoic mafic rocks from southeastern coast of China. Acta Petrologica Sinia22(2), 407–413 (in Chinese with English Abstract).

(13) Wang XL, Zhou JC*, Qiu JS, Zhang WL, Liu XM, Zhang GL. 2006. Petrogenesis of the Neoproterozoic strongly peraluminous granitoids from Northern Guangxi: constraints from zircon geochronology and Hf isotopes. Acta Petrologica Sinica22(2), 326–342 (in Chinese with English Abstract).

(12) Wang XL, Zhou JC*, Qiu JS, Zhang WL, Liu XM, Zhang GL. 2006. LA-ICP-MS U-Pb zircon geochronology of the Neoproterozoic igneous rocks from Northern Guangxi, South China: implications for petrogenesis and tectonic evolution. Precambrian Research145(1-2), 111–130.

(11) Zhou JC*, Jiang SY, Wang XL, Yang JH, Zhang MQ, 2006. Study on lithogeochemistry of Middle Jurassic basalts from southern China represented by the Fankeng basalts from Yongding of Fujian province. Science in China (series D)49(10), 1020–1031.

Year-2005

(10) Zhou JC*, Wang XL, Qiu JS. 2005. The characters of Magmatism in the western section of the Jiangnan orogenic belt. Geological Journal of China Universities11(4), 527–533 (in Chinese with English Abstract).

(09) Qiu JS*, Hu J, Wang XL, Jiang SY, Wang RC, Xu XS, 2005. The Baishigang pluton in Heyuan, Guangdong Province: a highly fractionated I-type granite. Acta Geologica Sinica79, 503–514 (in Chinese with English Abstract).

(08) Zhou JC*, Jiang SY*, Wang XL, Yang JH, Zhang MQ, 2005. Re-Os isochron age of Fankeng basalts from Fujian of SE China and its geological significance. Geochemical Journal39, 497–502.

Year-2004

(07) Wang XL, Zhou JC*, Qiu JS, Gao JF, 2004. Petrogenesis of Neoproterozoic peraluminous granites from Northeastern Hunan Province: chronological and geochemical constraints. Geological Review50, 65–76 (in Chinese with English Abstract).

(06) Wang XL, Zhou JC*, Qiu JS, Gao JF, 2004. Geochemistry of the Meso- to Neoproterozoic basic-acid rocks from Hunan Province, South China: implications for the evolution of the western Jiangnan orogen. Precambrian Research135(1-2), 79–103.

(05) Wang XL, Zhou JC*, Qiu JS, Gao JF, 2004. Comment on “Neoproterozoic granitoids in South China: crustal melting above a mantle plume at ca. 825Ma?” by Xian-Hua Li et al. (PR 122, 45-83, 2003). Precambrian Research132, 401–403.

(04) Zhou JC*, Wang, XL, Qiu JS, Gao JF, 2004. Geochemistry of Meso- and Neoproterozoic mafic- ultramafic rocks from northern Guangxi, China: arc or plume magmatism? Geochemical Journal38(2), 139–152.

Year-2003

(03) Zhou JC*, Wang, XL, Qiu JS, Gao JF, 2003. Lithogeochemistry of Meso- and Neoproterozoic mafic-ultramafic rocks from northern Guangxi. Acta Petrologica Sinica19, 9–18 (in Chinese with English Abstract).

(02) Wang XL, Zhou JC*, Qiu JS, Gao JF, 2003. Geochemistry of the Meso- Neoproterozoic volcanic-intrusive rocks from Hunan Provinces and its petrogenic significance. Acta Petrologica Sinica19, 49–60 (in Chinese with English Abstract).

(01) Zhou JC*, Wang, XL, Qiu JS, Gao JF, 2003. The discovery of Nanqiao highly depleted N-MORB and geological significance. Acta Petrologica et Mineralogica22, 211–216 (in Chinese with English Abstract).

Books:

(1)   Zhou JC and Wang XL, 2005. Experimental and theoretical petrology. Geological Publishing House, Beijing, pp. 1-256 (in Chinese, with English Abstract).

(2)   Xu XS and Qiu JS, 2010. Igneous Petrology. Science Publishing House, Beijing, pp, 1-346 (Chapters 4, 5 and 12 are written by Wang XL) (in Chinese).

(3)   Zhou JC, Wang XL, and Qiu JS, 2014. Neoproterozoic tectono-magmatic evolution of the Jiangnan orogen. Science Publishing House, Beijing (in Chinese, with English Abstract).

updated: Mar. 28, 2023