王孝磊

人物經歷

學習經歷

2001年7月畢業於南京大學地球科學系地球化學專業，獲學士學位;2006年6月於南京大學地球科學系獲“礦物岩石礦床學”專業博士學位。2006年7月留校任教;2008年聘為副教授;2013年8月聘為博導;2014年腿頁戒膠7月聘為教授。

進修經歷

1) 2006.8-10，在澳大利亞Macquarie 大學GEMOC進行合作研究(合作教授：S.Y. O’Reilly, W.L. Griffin);

2) 2007.5-8，在香港大學(HKU)進行合作研究(合作教授：趙國春);

3) 2007.10-2010.12，在中國科學技術大學進行在職博士後研究(合作導師：鄭永飛院士);

4) 2011.9-2013.9, University of Wisconsin-Madison, Honorary fellow(合作教授：J.W. Valley)。

社會任職

中國礦物岩石地球化學學會岩漿岩專業委員會主任

中國地質學會岩石專業委員會委員

中國國際前寒武紀研究中心委員

Precambrian Research 編委

Scientific Reports編委

南京大學釣魚協會委員

獲獎榮譽

2006南京大學優秀博士論文, 2007江蘇省優秀博士論文, 2008全國優秀博士論文提名獎

2008南京大學青年骨幹教師, 2010南京大學第六屆“我最喜愛的老師”

2011南京大學優秀中青年學科帶頭人培養計畫(A類)

2012 國家自然科學基金委首屆“優秀地捆廈糊青年基金”獲得者

2013年教育部“新世紀優秀人才支持計畫”

2014 南京大學登峰計畫(B類)

2016 中國礦物岩石地球化學學會“侯德封”獎

2020 國家自然科學基金委“傑出青年科學基金”

2010教育部自然科學獎二等獎(排名第2)

教學情況

變質岩石學，火成岩岩石學，岩石學進展，普通地質學野外實踐

研究方向

花崗岩與地殼演化、前寒武紀地質、俯衝帶岩漿作用

科研情況

目前在研項目：

1）國家自然科學基金委“傑出青年科學基金”項目——“岩石學”（400萬，2021.1-2025.12，項目編號：42025202），主持；

2)國家科技部重點研發計畫子課題“華南中生代大花崗岩省形成的深部過程與成礦作用”(718.76 萬，2017.6-2020.12，項目編號：2016YFC0600203)，主持;

已完成項目：

主持：

6)國家自然科學基金面上項目“深熔花崗岩鋯石Hf同位素變化的精細研究: 以華南武夷-雲開地區早古生代花崗岩為例”(115萬，2015.01-2018.12，項目編號：41472049)，主持;

5)國家自然科學基金優秀青年基金項目“岩石學，前寒武紀地質學”(100萬，2013.1-2015.12，項目編號射諒疊：41222016)，主持;

4)國家自然科學基金面上項目“江南造山帶新元古代肯蜜微典型花崗岩類的形成及其侵位-剝蝕的時差研究”(55萬，2011.01-2013.12，項目編號：41072144)，主持;

3)國家自然科學基金委青年基金項目“桂北新元古代煮估岩漿岩成因及其反映的造山帶早期地殼演化”(2009.01-20011.12，項目編號：40802017)，主持;

2)教育部博士點新教師基金項目“尋找江南造山帶新元古代岩漿岩源區轉換的過渡帶”(2009.01-2011.12，項目編號：200802841046)，主持;

1)國土資源部公益性行業科研專項“華夏-揚子板塊結合帶北東段的形成與破壞及其成礦作用”(2008-2010，項目編號：200811015)合作課題，主持;

參加：

5)國家自然科學基金重點項目“華南西部揚子與華夏兩地塊分界線和造山作用煉符翻的新研究”(305萬，2014.1-2018.12，項目編號：41330208)，參加.

4)973項目“華南地塊中生代陸殼再造與巨量金屬成礦”子課題“中生希才潤代陸殼再造的背景與過程”(266萬，2012-2016，項目編號：2012CB416701)，參加;

3)國家自然科學基金重點項目“中國東南部中-新生代幔源岩漿作用及其構造意義”(2008.1-2011.12，項目編號：40730313)，參加。

2)中國地質調查局綜合研究工作項目“南嶺重要金屬礦床成礦機理研究和找礦潛力預測”(2007-2010，項目編號：1212010632100)，參加;

1)973項目“華北大陸邊緣造山過程與成礦”子課題“中生代構造域轉換體制的複雜成礦作用”(2006-2010, 項目編號：2006CB403506)，參加;

學術成果

發表論文

Year-2021

(75) Chen, X., Wang, X.L.*, Yu, J.H., Shu, L.S., Wang, R.C., Tran, M., Sun, T., Nguyen, D.L., Lu, J.J., Episodic differentiation and eruption of plume-related felsic magmas in the Tu Le Basin, northern Vietnam. in revision.

(74) 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.

(73) 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, DOI: 10.1007/s00410-020-01757-2.

Year-2020

(72) 王孝磊*, 劉福來, 李軍勇, 王迪. 2020. 前寒武紀俯衝和板塊構造的漸進式演變. 中國科學-地球科學, 50(12), 1947 ~ 1968, doi: 10.1360/SSTe-2020-0053. [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 Sciences 63(12): 2068–2086, https://doi.org/10.1007/s11430-020-9698-0]

(71) 徐夕生*, 王孝磊, 趙凱, 杜德宏. 2020. 新時期花崗岩研究的進展和趨勢. 礦物岩石地球化學通報, 39(5),

(70) 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. Lithos 376–377, 105750. https://doi.org/10.1016/j.lithos.2020.105750.

(69) 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 Research 350, 105922. https://doi.org/10.1016/j.precamres.2020.105922.

(68) 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 Sciences 201, 104503, doi: 10.1016/j.jseaes.2020.104503.

(67) 王碩, 王孝磊*, 杜德宏. 2020. 火山岩-侵入岩的聯繫. 高校地質學報, 26(5), 497-505.

(66) 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, doi: 10.1016/j.lithos.2020.105598.

(65) 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 Earth 125, e2019JB017414, DOI:10.1029/2019JB017414.

Year-2019

(64) 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. Lithos 350-351, 105265, doi: 10.1016/j.lithos.2019.105265.

(63) 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 Sciences 184, 104001, doi: 10.1016/j.jseaes.2019.104001.

(62) 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 Research 331, 105350.

(61) Chen, X., Lee, C.T., Wang, X.L.*, Tang, M., 2019. Influence of water on granite generation: Modeling and perspective. Journal of Asian Earth Sciences 174, 126–134, doi: 10.1016/j.jseaes.2018.12.001.

(60) Huang, D.L., Wang, X.L.*, Xia, X.P., Wan, Y.S., Zhang, F.F., Li, J.Y., Du, D.H., 2019. Neoproterozoic low-δO zircons revisited: implications for Rodinia configuration. Geophysical Research Letters 46, 678–688. doi:10.1029/2018GL081117.

Year-2018

(59) 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 Research 309, 6–21, doi: 10.1016/j.precamres.2017.04.018.

(58) Zhao, J.H., Zhang, S.B., Wang, X.L., 2018. Neoproterozoic geology and reconstruction of South China. Precambrian Research 309, 1–5, doi: 10.1016/j.precamres.2018.02.004.

(57) 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, doi: 10.1016/j.precamres.2017.04.040.

(56) 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, 10.1016/j.precamres.2017.12.042.

(55) 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 Research 309, 138–151,doi: 10.1016/j.precamres.2017.04.008.

(54) 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 Research 309, 123–137, doi: 10.1016/j.precamres.2017.04.001

(53) 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 Sciences 154, 202-212, doi: 10.1016/j.jseaes.2017.12.025.

(52) 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, doi:10.1016/j.lithos.2017.11.034.

Year-2017

(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. Lithos, 290-291, 76-93, doi:/10.1016/j.lithos.2017.07.017.

(50) Wang, D., Wang, X.L.*, Cai, Y., Chen, X., Zhang, F.R., and Zhang, F.F., 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 Petrology 58, 1781–1810, doi:10.1093/petrology/egx074.

(49) 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, doi:10.1016/j.gca.2017.09.014.

(48) 王孝磊*, 周金城, 陳昕, 張鳳鳳, 孫梓銘. 2017. 江南造山帶的形成和演化. 礦物岩石地球化學通報, 36 (5), 714–735.

(47) 王孝磊. 2017. 花崗岩研究的若干新進展與主要科學問題. 岩石學報, 33(5), 1445–1458.

(46) Zhang, F.F., Wang, X.L.*, Wang, D., Yu, J.H., Zhou, X.H., Sun, Z.M., 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 Bulletin 129, 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 Research 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 Earth 121, 7903–7928, doi:10.1002/2016jb013060.

Year-2014

(43) Wang, X.L.*, 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 Geology 389, 122–136, doi: 10.1016/j.chemgeo.2014.09.013.

(42) Xing, G.F.*, Wang, X.L.*, Wan, Y.S., Chen, Z.H., 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 Reports 4, 5143, doi:10.1038/srep05143.

(41)Chen, X., Wang, X.L.*, Gao, J.F., Shu, X.J., Zhou, J.C., Qi, L., 2014.Neoproterozoic chromite-bearing high-Mg diorites in the western part of the Jiangnan orogen, southern China: geochemistry, petrogenesis and tectonic implications. Lithos 200–201, 35–48. doi: 10.1016/j.lithos.2014.04.007.

(40) Wang, X.L.*, Zhou, J.C., Griffin, W.L., Zhao, G.C., Yu, J.H., Qiu, J.S., Zhang, Y.J., Xing, G.F., 2014. Geochemical zonation across a Neoproterozoic orogenic belt: Isotopic evidence from granitoids and metasedimentary rocks of the Jiangnan orogen, China. Precambrian Research 242, 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 Letters 389, 188–199, doi:10.1016/j.epsl.2013.12.036.

Year-2013

(38) Wang, D., Wang, X.L.*, Zhou, J.C., Shu, X.J., 2013. Unravelling the Precambrian crustal evolution by Neoproterozoic basal conglomerates, Jiangnan orogen: U-Pb and Hf isotopes of detrital zircons. Precambrian Research 233, 223–236, doi:10.1016/j.precamres.2013.05.005.

(37) Wang, X.L.*, Zhou, J.C., Wan, Y.S., Kitajima, K., Wang, D., Bonamici, C., Qiu, J.S. 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 Letters 366, 71–82, doi: 10.1016/j.epsl.2013.02.011.

(36) Shu, X.J., Wang, X.L.*, Sun, T., Chen, W.F., Shen, W.Z., 2013. Crustal formation in the Nanling Range, South China Block: Hf isotope evidence of zircons from Phanerzoic granitoids. Journal of Asian Earth Sciences 74, 210–224, doi:10.1016/j.jseaes.2013.01.016.

(35) Wang, X.L.*, Jiang, S.Y., Dai, B.Z., 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 Journal 48, 498–515, doi: 10.1002/gj.2464.

(34) 王孝磊*，於津海，舒徐潔，唐成虎，邢光福, 2013. 贛中周潭群副變質岩碎屑鋯石U-Pb年代學. 岩石學報, 29(3), 801–811.

Year-2012

(33) 王孝磊*，舒徐潔，邢光福, 謝思文, 張春暉, 夏晗, 2012. 浙江諸暨地區石角-璜山侵入於LA-ICP-MS鋯石U-Pb年齡——對超鎂鐵質球狀岩成因的啟示. 地質通報, 31(1), 75–81.

(32) Wang, X.L.*, Shu, X.J., Xu, X.S., 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 Sciences 61, 243–256, doi:10.1016/j.jseaes.2012.10.017.

(31) Wang, G.G., Ni, P.*, Zhao, K.D., Wang, X.L., Liu, J.Q., Jiang, S.Y., Chen, H., 2012. Petrogenesis of the Middle Jurassic Yinshan volcanic-intusive complex, SE China: implications for tectonic evolution and Cu-Au mineralization. Lithos 150, 135–154, doi:10.1016/j.lithos.2012.05.030.

(30) Wang, X.L.*, Shu, L.S., Xing, G.F., Zhou, J.C., 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 Research 222-223, 404–423, doi: 10.1016/j.precamres.2011.07.003.

(29)Tang, M., Wang, X.L., 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 Research 21, 266–280, doi:10.1016/ j.gr.2011.05.009.

Year-2011

(28) Shu, X.J., Wang, X.L.*, Sun, T., Xu, X.S., Dai, M.N., 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. Lithos 127, 468–482, doi:10.1016/j.lithos.2011.09.019.

(27) Wang, X.L.*, Jiang, S.Y., Dai, B.Z., Griffin, W.L., Dai, M.N., Yang, Y.H., 2011. Age, geochemistry and tectonic setting of the Neoproterozoic (ca 830 Ma) gabbros on the southern margin of the North China Craton. Precambrian Research 190, 35–47, doi: 10.1016/j.precamres.2011.08.004.

Year-2010

(26) Wang, X.L.*, Jiang, S.Y., Dai, B.Z., 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 Research 182, 204–216. doi:10.1016/ j.precamres.2010.08.007.

Year-2009

(25) 周金城*, 王孝磊, 邱檢生. 2009. 江南造山帶形成過程中若干新元古代地質事件. 高校地質學報, 15(4), 453–459.

(24) 戴寶章, 蔣少涌*, 王孝磊. 2009. 河南東溝鉬礦花崗斑岩成因: 岩石地球化學、鋯石U-Pb年代學及Sr-Nd-Hf同位素制約. 岩石學報, 25(11), 2889–2901.

(23) Zhou, J.C.*, Wang, X.L., Qiu, J.S., 2009. Geochronology of Neoproterozoic mafic rocks and sandstones from northeastern Guizhou, South China: Coeval arc magmatism and sedimentation. Precambrian Research 170, 27–42 doi:10.1016/ j.precamres. 2008.11.002.

Year-2008

(22) Wang, X.L.*, Zhao, G.C., Zhou, J.C., Liu, Y.S., 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 Research 14, 355–367. doi: 10.1016/j.gr.2008.03.001.

(21) Wang, X.L., Zhou, J.C.*, Qiu, J.S., Jiang, S.Y., Shi, Y.R., 2008. Geochronology and geochemistry of Neoproterozoic mafic rocks from western Hunan, South China: implications for petrogenesis and post-orogenic extension. Geological Magazine 145, 215–233.

(20) 賀振宇, 徐夕生*, 王孝磊, 陳榮. 2008. 贛南橄欖安粗質火山岩的年代學與地球化學. 岩石學報, 24(11), 2524–2536.

(19) 周金城*, 王孝磊, 邱檢生. 2008. 江南造山帶是否格林威爾期造山帶？—關於華南前寒武紀地質的幾個問題. 高校地質學報, 14(1), 64–72.

Year-2007

(18) 於津海*, 王麗娟, 王孝磊, 邱檢生, 趙蕾. 2007. 贛東南富城雜岩體的地球化學和年代學研究. 岩石學報, 23(6), 1441–1456.

(17) Wang, X.L.*, Zhou, J.C., Griffin, W.L., Wang, R.C., Qiu, J.S., O’Reilly, S.Y., Xu, X.S., Liu, X.M., Zhang, G.L., 2007. Detrital zircon geochronology of Precambrian basement sequences in the Jiangnan orogen: dating the assembly of the Yangtze and Cathaysia blocks. Precambrian Research 159, 117–131. doi: 10.1016/j.precamres.2007.06.005.

(16) Xu, X.S.*, O’Reilly, S.Y., Griffin, W.L., Wang, X.L., Pearson, N.J., He, Z.Y., 2007. The Crust of Cathaysia: Age, Assembly and Reworking of Two Terranes. Precambrian Research 158, 51–78.

Year-2006

(15) 胡建, 邱檢生*, 王汝成, 蔣少涌, 凌洪飛, 王孝磊. 2006. 廣東龍窩和白石岡岩體鋯石U-Pb年代學、黑雲母礦物化學及其成岩指示意義. 岩石學報, 22(10), 2464–2474.

(14) 周金城*, 蔣少涌, 王孝磊, 楊競紅, 張孟群. 2006. 東南沿海晚中生代鎂鐵質岩的Re-Os同位素組成. 岩石學報, 22(2), 407–413.

(13) 王孝磊, 周金城*, 邱檢生, 張文蘭, 柳小明, 張桂林. 2006. 桂北新元古代強過鋁花崗岩的成因：鋯石年代學和Hf同位素制約. 岩石學報, 22(2), 326–342.

(12) Wang, X.L., Zhou, J.C.*, Qiu, J.S., Zhang, W.L., Liu, X.M., Zhang, G.L., 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 Research 145, 111–130.

(11) Zhou, J.C.*, Jiang, S.Y., Wang, X.L., Yang, J.H., Zhang, M.Q., 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, 1020–1031 (被SCI收錄). [周金城, 蔣少涌, 王孝磊, 楊競紅, 張孟群. 2005. 華南中侏羅世玄武岩的岩石地球化學研究-以福建藩坑玄武岩為例. 中國科學(D輯), 35(10), 927–936.]

Year-2005

(10) 周金城*, 王孝磊, 邱檢生. 2005. 江南造山帶西段岩漿作用特性. 高校地質學報, 11(4), 527–533.

(9) 邱檢生*, 胡建, 王孝磊, 蔣少涌, 王汝成, 徐夕生. 2005. 廣東河源白石岡岩體：一個高分異的I型花崗岩. 地質學報, 79(4), 503–514.

(8) Zhou, J.C.*, Jiang, S.Y., Wang, X.L., Yang, J.H., Zhang, M.Q., 2005. Re-Os isochron age of Fankeng basalts from Fujian of SE China and its geological significance. Geochemical Journal 39, 497–502.

Year-2004

(07) 王孝磊, 周金城*, 邱檢生, 高劍鋒. 2004. 湘東北新元古代強過鋁花崗岩的成因：年代學和地球化學證據. 地質論評, 2004, 50(1), 65–76.

(06) Wang, X.L., Zhou, J.C.*, Qiu, J.S., Gao, J.F., 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 Research 135, 79–103.

(05) Wang, X.L., Zhou, J.C.*, Qiu, J.S., Gao, J.F., 2004. Comment on “Neoproterozoic granitoids in South China: crustal melting above a mantle plume at ca. 825 Ma?” by Xian-Hua Li et al. (PR 122, 45-83, 2003). Precambrian Research 132, 401–403.

(04) Zhou, J.C.*, Wang, X.L., Qiu, J.S., Gao, J.F., 2004. Geochemistry of Meso- and Neoproterozoic mafic- ultramafic rocks from northern Guangxi, China: arc or plume magmatism? Geochemical Journal 38, 139–152.

Year-2003

(03) 周金城*, 王孝磊, 邱檢生, 高劍鋒. 2003. 桂北中-新元古代鎂鐵質-超鎂鐵質岩的岩石地球化學. 岩石學報, 19(1), 9–18.

(02) 王孝磊, 周金城*, 邱檢生, 高劍鋒. 2003. 湖南中-新元古代火山侵入岩地球化學及成因意義. 岩石學報, 19(1), 49–60.

(01) 周金城*, 王孝磊, 邱檢生, 高劍鋒. 2003. 南橋高度虧損N-MORB的發現及其地質意義. 岩石礦物學雜誌, 22(3), 211–216.

(*, corresponding author)

教材專著

(1) 周金城, 王孝磊. 2005. 實驗及理論岩石學. 地質出版社: 北京.

(2) 徐夕生, 邱檢生. 2010. 火成岩岩石學. 科學出版社: 北京. (本人編寫第四、五和十二章).

(3) 周金城, 王孝磊, 邱檢生. 2014. 江南造山帶新元古代構造-岩漿演化研究. 科學出版社: 北京.

王孝磊

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