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姓名：	曹明堅	性別：	男

職稱(chēng)：	研究員	學(xué)位：	博士

電話(huà)：	010-82998190	傳真：	010-62010846

Email：	caomingjian[a]mail.iggcas.ac.cn	郵編：	100029

地址：	北京朝陽(yáng)區北土城西路19號，中科院地質(zhì)與地球物理研究所

更多信息：

【English】礦產(chǎn)資源研究院重點(diǎn)實(shí)驗室斑巖成礦系統學(xué)科組

簡(jiǎn)歷：

　　曹明堅，研究員。1985年出生于江西九江。2008年畢業(yè)于中國地質(zhì)大學(xué)（北京）地球化學(xué)專(zhuān)業(yè)獲學(xué)士學(xué)位，2013年畢業(yè)于中國科學(xué)院地質(zhì)與地球物理研究所礦物學(xué)、巖石學(xué)礦床專(zhuān)業(yè)獲博士學(xué)位。2013-2015年留所做博士后研究，2016年至2020年任副研究員，2021年起任研究員。于2011.5-2011.8和2016.9-2018.8在澳大利亞科廷大學(xué)開(kāi)展合作研究，2016.5-2016.7在德國圖賓根大學(xué)開(kāi)展合作研究，以及2015.2-2015.12在加拿大湖首大學(xué)做訪(fǎng)問(wèn)學(xué)者。
　　近年來(lái)以精細成礦礦物學(xué)研究為基礎，以現代原位微區分析方法為手段，致力于俯沖背景還原性斑巖銅礦（新疆包古圖）與氧化性斑巖銅礦（菲律賓黑山）巖漿熱液成礦過(guò)程和弧巖漿演化對成礦的指示研究。提出我國首例還原性斑巖銅礦―新疆包古圖鈦鐵礦系列I型成礦巖石為巖漿混合成因、甲烷費托反應成因和正巖漿成礦模式；證實(shí)島弧斑巖銅礦幔源鎂鐵質(zhì)巖漿對成巖成礦的重大貢獻，揭示其深部巖漿房呈多級、多階段產(chǎn)出；厘定成熟弧上高氧逸度、埃達克質(zhì)巖漿更具成礦潛力。相關(guān)研究通過(guò)礦物探針新視角，為深入認識俯沖背景斑巖銅礦物質(zhì)來(lái)源和形成機制提供了關(guān)鍵礦物學(xué)證據，發(fā)展了還原性斑巖銅礦正巖漿成礦理論，增進(jìn)了對氧化性斑巖銅礦深部巖漿形成過(guò)程的理解，揭示了埃達克質(zhì)氧化性弧巖漿與斑巖銅礦間的成因聯(lián)系。
　　已發(fā)表SCI論文44篇，其中第一作者國際SCI論文20篇，包括EG（3篇）、JP、GCA、JGR、AM、MD（2篇）等國際重要期刊，SCI總引1158次，SCI他引1015次。
　　2013年獲美國經(jīng)濟地質(zhì)學(xué)家學(xué)協(xié)會(huì )學(xué)生研究資助（中國共3人）、2014年獲國家公派訪(fǎng)問(wèn)學(xué)者項目、2015年獲中國科學(xué)院優(yōu)秀博士論文獎及全國博士后國際交流計劃派出項目、2018年入選中國科學(xué)院青年創(chuàng )新促進(jìn)會(huì )、2021年獲國家自然科學(xué)基金優(yōu)秀青年基金資助。

學(xué)科類(lèi)別：

地質(zhì)學(xué)（礦物學(xué)、巖石學(xué)、礦床學(xué)）

研究方向：

原位微區分析示蹤巖漿-熱液礦床精細成巖-成礦過(guò)程
斑巖Cu/Mo礦床低溫熱年代學(xué)研究

職務(wù)：

社會(huì )任職：

承擔科研項目情況：

國家自然科學(xué)基金面上項目（41672090），新老島弧斑巖銅(金)礦中間巖漿房過(guò)程對比研究：以菲律賓 Black Mountain和我國多寶山為例，2017.01-2020.12，主持
國家重點(diǎn)研發(fā)計劃（2017YFC0601306），淺成低溫-斑巖銅金、銀鉛鋅- 鉬錫鎢礦床的共生與分離機理，2017.07-2021.06，參加
國家自然科學(xué)基金青年項目（41402081），西準噶爾包古圖還原性斑巖銅礦富CH₄流體來(lái)源和CH₄形成機制研究，2015.01~2017.12，主持

獲獎及榮譽(yù)：

2018年入選中國科學(xué)院青年創(chuàng )新促進(jìn)會(huì )會(huì )員
2015中國科學(xué)院優(yōu)秀博士學(xué)位論文
2013年“朱李月華”優(yōu)秀博士生
2012年“國家獎學(xué)金”
2012年中國科學(xué)院“三好學(xué)生標兵”

代表論著(zhù)：

2021
    44. Cao M.J.*, Evans N.J., Hollings P., Cooke D.R., McInnes B.I.A., Qin K.Z., 2020. Apatite texture, composition and O-Sr-Nd isotopic signatures record magmatic and hydrothermal fluid characteristics at the Black Mountain porphyry deposit, Philippines. Economic Geology, Accepted.
    43. Cao M.J.*, Qin K.Z., Evans N.J., Li G.M., Ling X.X., McInnes B.I.A., Zhao J.X., 2020. Titanite in situ SIMS U–Pb geochronology, elemental and Nd isotopic signatures record mineralization and fluid characteristics at the Pusangguo skarn deposit, Tibet. Mineralium Deposita, doi.org/10.1007/s00126-020-01021-4.

2020
    42. Cao M.J.*, Hollings P., Evans N.J., Cooke D.R., McInnes B.I.A., Zhao K.D., Qin K.Z., Li D.F., Sweet G., 2020. In situ elemental and Sr isotopic characteristics of magmatic to hydrothermal minerals from the Black Mountain porphyry deposit, Baguio District, Philippines. Economic Geology, 115, no. 4, pp. 927–944
    41. Wang L., Qin K.Z.*, Cao M.J., Danisik M., Evans N.J., Li G.M., Song G.X., Pang X.Y., 2020. Thermal history of an Early Paleozoic epithermal deposit: Constraints from 40Ar/39Ar and (U-Th)/He thermochronology at Zhengguang, eastern Central Asian Orogenic Belt. Ore Geology Reviews 126, doi: 10.1016/j.oregeorev.2020.103791.

2019
    40. Cao M.J.*, Evans N.J., Reddy S.M., Fougerouse D., Hollings P., Saxey D.W., McInnes B.I.A., Mcdonald B.J., Qin K.Z., 2019. Micro- and nano-scale textural and compositional zonation in plagioclase at the Black Mountain porphyry Cu deposit: implications for magmatic processes. American Mineralogist 104, 391–402.
    39. Cao M.J.*, Evans N.J., Qin K.Z., Dani?ík M., Li G.M., McInnes B.I.A., 2019. Open apatite Sr isotopic system in low-temperature hydrous regimes. Journal of Geophysical Research: Solid Earth. 124, 11192–11203.
    38. Wu C., Hong T., Xu X.W., Cao M.J., Li H., Ke Q., Li H., Dong L.H., 2019. Constraints on the formation of the Baogutu reduced porphyry copper deposit (West Junggar, NW China): Assessing the role of mafic magmas in mineralization. Lithos 336–337, 112–124.

2018
    37. Cao M.J.*, Evans N.J., Hollings P., Cooke D.R., McInnes B.I.A., Qin K.Z., Li G.M., 2018. Phenocryst zonation in porphyry-related rocks of the Baguio District, Philippines: Evidence for magmatic and metallogenic processes. Journal of Petrology 59, 825–848.
    36. Cao, M.J.*, Hollings, P., Cooke, D.R., Evans, N.J., McInnes, B.I.A., Qin, K.Z., Li, G.M., Sweet, G., Baker, M., 2018. Physicochemical processes in the magma chamber under the Black Mountain porphyry Cu-Au deposit (Philippines): Insights from mineral chemistry and implications for mineralization. Economic Geology, 113, 63-82.
    35. Cao M.J.*, Qin K.Z., Li G.M., Evans N.J., McInnes B.I.A., Li J.X., Zhao J.X., 2018. Oxidation state inherited from the magma source and implications for mineralization: Late Jurassic to Early Cretaceous granitoids, Central Lhasa subterrane, Tibet. Mineralium Deposita, 53, 299-309.
    34. Zhang X.N., Li G.M.*, Qin K.Z., Lehmann B., Li J.X., Zhao J.X., Cao M.J., Zou X.Y., 2018. Petrogenesis and tectonic setting of Early Cretaceous granodioritic porphyry from the giant Rongna porphyry Cu deposit, central Tibet. Journal of Asian Earth Sciences 161, 74–92.
    33. Hong, T., Xu, X.W.*, Gao, J., Peters, S.G., Li, J.L., Cao, M.J., Xiang, P., Wu, C., You, J., 2018. Element migration of pyrites during ductile deformation of the Yuleken porphyry Cu deposit (NW-China). Ore Geology Reviews, 100, 205–219.
    32. Wu C., Hong T., Xu X.W.*, Cao M.J., Li H., Zhang G.L., You J., Ke Q., Dong L.H., 2018, Tectonic evolution of the Paleozoic Barluk continental arc, West Junggar, NW China. Journal of Asian Earth Sciences 160, 48–66.

2017
    31. Cao, M.J.*, Qin, K.Z., Li, G.M., Evans, N.J., McInnes, B.I.A., Lu, W.W., and Deng, G., 2017. Petrogenesis of the Baishan granite stock, Eastern Tianshan, NW China: Geodynamic setting and implications for potential mineralization. Lithos, 292-293, 278-293.
    30. Cao M.J.*, Qin K.Z., Li G.M., Evans N.J., Hollings P., Maisch M., Kappler A., 2017. Mineralogical evidence for crystallization conditions and petrogenesis of ilmenite-series I-type granitoids at the Baogutu reduced porphyry Cu deposit (Western Junggar, NW China): M?ssbauer spectroscopy, EPM and LA-(MC)-ICPMS analyses. Ore Geology Reviews 86, 382-403.
    29. Li G.M.*, Qin K.Z., Li J.X., Evans N.J., Zhao J.X., Cao M.J., Zhang X.N., 2015. Cretaceous magmatism and metallogeny in the Bangong–Nujiang metallogenic belt, central Tibet: Evidence from petrogeochemistry, zircon U–Pb ages, and Hf–O isotopic compositions. Gondwana Research 41, 110-127.

2016
    28. Cao M.J.*, Li G.M., Qin K.Z., Evans N.J., Seitmuratova E.Y., 2016. Assessing the magmatic affinity and petrogenesis of granitoids at the giant Aktogai porphyry Cu deposit, Central Kazakhstan. American Journal of Science 316, 614-668.
    27. Cao M.J.*, Qin K.Z., Li G.M., Li J.X., Evans N.J., Hollings, P., 2016. Tectono-magmatic evolution of Late Jurassic to Early Cretaceous granitoids in the west central Lhasa subterrane, Tibet. Gondwana Research 39, 386-400.
    26. Cao M.J.*, Qin K.Z., Li G.M., Evans N.J., Hollings P., Jin L.Y., 2016. Genesis of ilmenite-series I-type granitoids at the Baogutu reduced porphyry Cu deposit, western Junggar, NW-China. Lithos 246–247, 13-30.
    25. Li G.M.*, Cao M.J.*, Qin K.Z., Evans N.J., Hollings P., Seitmuratova E.Y., 2016. Geochronology, petrogenesis and tectonic settings of pre- and syn-ore granites from the W-Mo deposits (East Kounrad, Zhanet and Akshatau), Central Kazakhstan. Lithos 252-253, 16-31.
    24. Li G.M.*, Cao M.J., Qin K.Z., Hollings P., Evans N.J., Seitmuratova E.Y., 2016. Petrogenesis of ore-forming and pre/post-ore granitoids from the Kounrad, Borly and Sayak porphyry/skarn Cu deposits, Central Kazakhstan. Gondwana Research 37, 408-425.
    23. Zhao J.X., Qin K.Z.*, Xiao B., McInnes B., Li G.M., Evans N.J., Cao M.J., Li J.X., 2016. Thermal history of the giant Qulong Cu–Mo deposit, Gangdese metallogenic belt, Tibet: Constraints on magmatic–hydrothermal evolution and exhumation. Gondwana Research 36, 390-409.
    22. Li D.F., Zhang L.*, Chen H.Y., Hollings P., Cao M.J., Fang J., Wang C.M., Lu W.J., 2016. Geochronology and geochemistry of the high Mg dioritic dikes in Eastern Tianshan, NW China: Geochemical features, petrogenesis and tectonic implications. Journal of Asian Earth Sciences 115, 442-454.
    21. Li, J.X. *, Qin, K.Z., Li, G.M., Evans, N.J., Zhao, J.X., Cao, M.J., and Huang, F., 2016, The Nadun Cu-Au mineralization, central Tibet: Root of a high sulfidation epithermal deposit: Ore Geology Reviews 78, 371–387.

2015
    20. Cao M.J., Qin K.Z.*, Li G.M., Evans N.J., Jin L.Y., 2015. In situ LA-(MC)-ICP-MS trace element and Nd isotopic compositions and genesis of polygenetic titanite from the Baogutu reduced porphyry Cu deposit, Western Junggar, NW China. Ore Geology Reviews 65, 940-954.
    19. Cao M.J., Qin K.Z.*, Li G.M., Evans N.J., He H.Y., Jin L.Y., 2015. A mixture of mantle and crustal derived He-Ar-C-S ore-forming fluids at the Baogutu reduced porphyry Cu deposit, Western Junggar. Journal of Asian Earth Sciences 98, 188-197.
    18. Li G.M.*, Li J.X., Zhao J.X., Qin K.Z., Cao M.J., Evans NJ., 2015. Petrogenesis and tectonic setting of Triassic granitoids in the Qiangtang terrane, central Tibet: Evidence from U–Pb ages, petrochemistry and Sr–Nd–Hf isotopes. Journal of Asian Earth Sciences 105, 443-455.
    17. Li J.X.*, Qin K.Z., Li G.M., Zhao J.X., Cao M.J., 2015. Petrogenesis of diabase from accretionary prism in the southern Qiangtang terrane, central Tibet: Evidence from U–Pb geochronology, petrochemistry and Sr–Nd–Hf–O isotope characteristics. Island Arc 24, 232-244.
    16. Zhou Q.F., Qin K.Z.*, Tang D.M., Tian Y., Cao M.J., Wang C.L., 2015. Formation Age and Evolution Time Span of the Koktokay No. 3 Pegmatite, Altai, NW China: Evidence from U–Pb Zircon and 40Ar–39Ar Muscovite Ages. Resource Geology 65, 210-231.
    15. Zhao J.X., Qin K.Z.*, Li G.M., Cao M.J., Evans N.J., McInnes B.I.A., Li J.X., Xiao B., Chen L., 2015. The exhumation history of collision-related mineralizing systems in Tibet: Insights from thermal studies of the Sharang and Yaguila deposits, central Lhasa. Ore Geology Reviews 65, 1043-1061.
    14. Wu C., Liu Y., Cao M.J., Hong T., Xu X.W.*, Dong L H., 2015. Characteristics and formation mechanism of reduced porphyry Cu and Mo-Cu deposits. Acta Petrologica Sinaca 31, 617-638 (in Chinese with English abstract)..

2014
    13. Cao M.J., Qin K.Z.*, Li G.M., Evans N.J., Jin L.Y., 2014. Abiogenic Fischer–Tropsch synthesis of methane at the Baogutu reduced porphyry copper deposit, western Junggar, NW-China. Geochimica et Cosmochimica Acta 141, 179-198.
    12. Cao M.J., Qin K.Z.*, Li G.M., Yang Y.H., Evans N.J., Zhang R., Jin L.Y., 2014. Magmatic process recorded in plagioclase at the Baogutu reduced porphyry Cu deposit, western Junggar, NW-China. Journal of Asian Earth Sciences 82, 136-150.
    11. Cao M.J., Li G.M.*, Qin K.Z., Jin L.Y., Evans N.J., Yang X.R., 2014. Baogutu: An example of reduced porphyry Cu deposit in western Junggar. Ore Geology Reviews 56, 159-180.
    10. Zhang J.C., Lin Y.T.*, Yang W., Shen W.J., Hao J.L., Hu S., Cao M.J., 2014. Improved precision and spatial resolution of sulfur isotope analysis using NanoSIMS. Journal of Analytical Atomic Spectrometry 29, 1934-1943.
    9. Li G.M.*, Cao M.J., Qin K.Z., Evans, N.J., McInnes B.I.A., Liu Y.S., 2014. Thermal-tectonic history of the Baogutu porphyry Cu deposit, West Junggar as constrained from zircon U-Pb, biotite Ar/Ar and zircon/apatite (U-Th)/He dating. Journal of Asian Earth Sciences 79, 741-758.
    8. Li J.X.*, Qin K.Z., Li G.M., Richards J.P., Zhao J.X.,Cao M.J., 2014. Geochronology, geochemistry, and zircon Hf isotopic compositions of Mesozoic intermediate–felsic intrusions in central Tibet: Petrogenetic and tectonic implications. Lithos 198–199, 77-91.

2013
    7. Cao M.J., Zhou Q.F., Qin K.Z.*, Tang D.M., Evans N.J., 2013. The tetrad effect and geochemistry of apatite from the Altay Koktokay No. 3 pegmatite, Xinjiang, China: implications for pegmatite petrogenesis. Mineralogy and Petrology 107, 985-1005.
    6. Li J.X.*, Qin K.Z., Li G.M., Xiao B., Zhao J.X., Cao M.J., Chen L., 2013. Petrogenesis of ore-bearing porphyries from the Duolong porphyry Cu-Au deposit, central Tibet: Evidence from U-Pb geochronology, petrochemistry and Sr-Nd-Hf-O isotope characteristics. Lithos 160-161, 216-227.

2012
    5. Cao M.J., Li G.M.*, Qin K.Z., Seitmuratova E.Y., Liu Y.S., 2012. Major and Trace Element Characteristics of Apatites in Granitoids from Central Kazakhstan: Implications for Petrogenesis and Mineralization. Resource Geology 62, 63-83.
    4. Li J.X.*, Qin K.Z., Li G.M., Cao M.J., Xiao B., Chen L., Zhao J.X., Evans N.J., Mcinnes B.I.A., 2012. Petrogenesis and thermal history of the Yulong porphyry copper deposit, Eastern Tibet: insights from U-Pb and U-Th/He dating, and zircon Hf isotope and trace element analysis. Mineralogy and Petrology, 1-21.

2011
    3. Cao M.J., Qin K.Z.*, Li G.M., Li J.L., 2011. Processes of study on the flat subduction and its metallogenic effect, cases analysis and some prospects. Acta Petrologica Sinica 27, 3727-3748 (in Chinese with English abstract).

2010
    2. Xiao Q.H., Qin K.Z.*, Tang D.M., Su B.X., Sun H., San J.Z., Cao M.J., Hui W.D., 2010. Xiangshanxi composite Cu-Ni—Ti-Fe deposit belongs to comagmatic evolution product: Evidences from ore microscopy, zircon U-Pb chronology and petrological geochemistry, Hami, Xinjiang, NW China. Acta Petrologica Sinaca 26, 503-522 (in Chinese with English abstract).

2009
    1. Su B.X., Qin K.Z.*, Sun H., Tang D.M., Xiao Q.H., Cao M.J., 2009. Petrological and mineralogical characteristics of Hongshishan mafic-ultramafic complex in Beishan area, Xinjiang: Implications for assimilation and fractional crystallization. Acta Petrologica Sinica 25, 873-887 (in Chinese with English abstract).
    * Corresponding author