• <small id="2yc0q"></small>
    <tfoot id="2yc0q"></tfoot>
  • 

    <fieldset id="2yc0q"><rt id="2yc0q"></rt></fieldset>
    日韩在线视频观看,中文字幕第13亚洲另类,视频在线不卡免费观看,欧美日韩国产高清
    





    
    

    




    


    
    
    
        
        
        
    
            
    
                
    
                    
    
                        
    
                            
      
                                
    • 姓名: 但衛
      • 
                                
    • 性別: 男
      • 
                                
    • 職務(wù): 
      • 
                                
    • 職稱(chēng): 副研究員
      • 
                                
    • 學(xué)歷: 博士研究生
      • 
                                
    • 電話(huà): 
      • 
                                
    • 傳真: 020-85291510
      • 
                                
    • 電子郵件: danwei@gig.ac.cn
      • 
                                
    • 通訊地址: 廣東省廣州市科華街511號
      • 
                            
    
                        
    
                        
    
                            
                        
    
                        
    
                        
    
                            
      
                                
      簡(jiǎn)  歷:
      
                                
    • 
   
      但衛,湖北省咸寧人;2004中國地質(zhì)大學(xué)(武漢)獲學(xué)士學(xué)位,2007年在中國地質(zhì)大學(xué)(武漢)獲碩士學(xué)位,2011年在中國科學(xué)院地質(zhì)與地球物理研究所獲博士學(xué)位;20077月至20092月在湖北省地震局工作,201112月至201412月在中國科學(xué)院廣州地球化學(xué)研究所從事博士后研究工作,20151月至今在中國科學(xué)院廣州地球化學(xué)研究所任副研究員(其中20167-20177月赴美國康奈爾大學(xué)進(jìn)行合作研究,201911-12月赴加拿大圣弗朗西斯澤維爾大學(xué)進(jìn)行合作研究)。
         
             

      • 
                            
    
                            
      
                                
      社會(huì )任職:
      
                                
    •  
      • 
                            
    
                            
      
                                
      研究方向:
      
                                
    • 研究領(lǐng)域:花崗巖成因與大陸演化、板內巖漿成因與動(dòng)力學(xué)、大尺度地質(zhì)事件的地球動(dòng)力學(xué)。
   
       

      目前研究興趣:1)岡瓦納大陸北緣的裂解過(guò)程與動(dòng)力學(xué);(2)特提斯構造域的形成與演化;(3)酸性大火成巖省的成因與地球動(dòng)力學(xué)。研究區域主要涉及帕米爾高原和青藏高原。
  
      • 
                            
    
                            
      
                                
      獲獎及榮譽(yù):
      
                                
    • 1. 2015年,中國科學(xué)院廣州地球化學(xué)研究所“涂光熾青年人才獎”
   
       

      2. 2012年,中國科學(xué)院地質(zhì)與地球物理研究所優(yōu)秀畢業(yè)生
   
       

      3. 2007年,中國地質(zhì)大學(xué)(武漢)優(yōu)秀碩士論文獎
  
      • 
                            
    
                            
      
                                
      代表論著(zhù):
      
                                
    • 第一作者和通訊作者論文
    
       

       
       

      20. Dan, W., Wang, Q., Murphy J.B., Zhang X.Z., Xu Y.G., White W.M., Jiang Z.Q., Ou Q., Hao L.L., Qi Y., 2021. Short duration of Early Permian Qiangtang-Panjal large igneous province: Implications for origin of the Neo-Tethys Ocean. Earth and Planetary Science Letters 568, 117054. 
   
       

      19. Dan, W., Wang, Q., White, W.M., Li, X.H., Zhang, X.Z., Tang, G.J., Ou, Q., Hao, L.L., Qi, Y., 2021. Passive-margin magmatism caused by enhanced slab-pull forces in central Tibet. Geology 49, 130-134. (http://www.mantleplumes.org/PassiveMargin.html)
   
       

      18. Wang J., Dan W., Wang Q., Tang G.J., 2021. High-Mg# adakitic rocks formed by lower-crustal magma differentiation: mineralogical and geochemical evidence from garnet-bearing diorite porphyries in central Tibet. Journal of Petrology, egaa099, https://doi.org/10.1093/petrology/egaa099.
   
       

      17. Wang, J., Wang, Q., Dan, W., 2021. Reply to comment by Vind et al. on "the role of clinopyroxene in amphibole fractionation of arc magmas: Evidence from ma fi c intrusive rocks within the Gangdese arc, southern Tibet". Lithos 380-381, 105721.
   
       

      16. 姜慶運, 但衛, 王強, 張修政, 唐功建, 2021. 青藏高原北羌塘三疊紀花崗巖中發(fā)現新元古代的基底信息:來(lái)自鋯石SIMS U-Pb年齡和Hf-O同位素的約束. 大地構造與成礦學(xué), 45(02): 389-400.
   
       

      15. Dan, W., Wang, Q., Zhang, X.Z., Tang, G.J., 2020. Early Paleozoic S-type granites as the basement of Southern Qiantang Terrane, Tibet. Lithos 356-357, 105395.
   
       

      14. Dan., W., Wang, Q., Li, X.H., Tang, G.J., Zhang C., Zhang, X.Z, Wang, J., 2019. Low  18O magmas in the Carboniferous intra-oceanic arc, central Tibet: Implications for felsic magma generation and oceanic arc accretion. Lithos 326-327, 28-38.
   
       

      13. Wang, J., Wang, Q., Dan, W., Yang, J.H., Yang, Z.Y., Sun, P., Qi, Y., Hu, W.L., 2019. The role of clinopyroxene in amphibole fractionation of arc magmas: Evidence from mafic intrusive rocks within the Gangdese arc, southern Tibet. Lithos 338, 174-188.
   
       

      12. Dan, W., Wang, Q., Zhang, X.Z., Zhang, C., Tang, G.J., Wang, J., Ou, Q., Hao, L.L., Qi, Y., 2018. Magmatic record of Late Devonian arc-continent collision in the northern Qiangtang, Tibet: implications for the early evolution of East Paleo-Tethys Ocean. Lithos 308-309, 104-117.
   
       

      11. Dan, W., Wang, Q., White, W.M., Zhang, X.Z., Tang, G.J., Jiang, Z.Q., Hao, L.L., Ou, Q., 2018. Rapid formation of eclogites during a nearly closed ocean: revisiting the Pianshishan eclogite in Qiangtang, central Tibetan Plateau. Chemical Geology 477, 112-122.
   
       

      10. Wang, J., Gou, G.N., Wang, Q., Zhang, C.F., Dan, W., Wyman, D.A., Zhang, X.Z., 2018. Petrogenesis of the Late Triassic diorites in the Hoh Xil area, northern Tibet: Insights into the origin of the high-Mg# andesitic signature of continental crust. Lithos 300-301, 348-360.
   
       

      9. Wang, J., Wang, Q., Zhang, C., Dan, W., Qi, Y., Zhang, X.-Z., Xia, X.-P., 2018. Late Permian bimodal volcanic rocks in the northern Qiangtang Terrane, central Tibet: Evidence for interaction between the Emeishan plume and the Paleo-Tethyan subduction system. Journal of Geophysical Research: Solid Earth, 123, 6540–6561.
   
       

      8. Dan, W., Li, X.H., Wang, Q., Wang, X.C., Wyman, D.A., Liu, Y., 2016. Phanerozoic amalgamation of the Alxa Block and North China Craton: evidence from Paleozoic granitoids, U–Pb geochronology and Sr-Nd-Pb-Hf-O isotope geochemistry. Gondwana Research 32, 105–121.
   
       

      7. Dan, W., Wang, Q., Wang, X.C., Liu, Y., Wyman, D.A., Liu, Y.S., 2015. Overlapping Sr–Nd–Hf–O isotopic compositions in Permian mafic enclaves and host granitoids in Alxa Block, NW China: Evidence for crust–mantle interaction and implications for the generation of silicic igneous provinces. Lithos 230, 133–145.
   
       

      6. Dan, W., Li, X.H., Wang, Q., Wang, X.C., Liu, Y., 2014. Neoproterozoic S-type granites in the Alxa Block, westernmost north China and tectonic implications: in-situ zircon U-Pb-Hf-O isotopic and geochemical constraints. American Journal of Science 314, 110–153.
   
       

      5. Dan, W., Li, X.H., Wang, Q., Tang, G.J., Liu, Y., 2014. The Early Permian (ca. 280 Ma) silicic igneous province in Alxa Block, NW China: a magmatic flare-up triggered by a mantle-plume? Lithos 204, 144–158.
   
       

      4. Dan, W., Li, X.H., Wang, Q., Wang, X.C., Liu, Y., Wyman, D.A., 2014. Paleoproterozoic S-type granites in the Helanshan Complex, Khondalite Belt, North China Craton: implications for rapid sediment recycling during slab break-off. Precambrian Research 254, 5972.
   
       

      3. Dan, W., Li, X.H., Guo, J.H., Liu, Y., Wang, X.C., 2012. Integrated in situ zircon U–Pb age and Hf–O isotopes for the Helanshan khondalites in North China Craton: juvenile crustal materials deposited in active or passive continental margin? Precambrian Research 222-223, 143–158.
   
       

      2. Dan, W., Li, X.H., Guo, J.H., Liu, Y., Wang, X.C., 2012. Paleoproterozoic evolution of the eastern Alxa Block, westernmost North China: Evidence from in situ zircon U-Pb dating and Hf-O isotopes. Gondwana Research 21, 838–864.
   
       

      1. 但衛, 楊坤光, 馬昌前, 2006.東大別羅田地區縱彎式褶皺及其地質(zhì)意義. 大地構造與成礦 學(xué), 30(4): 422-429.
   
       

       
       

      合作者論文
    
       

      30. Lei D., Dan W., Yang G., 2021. Coulomb stress change in the neighboring region and faults imparted by Anchorage Mw7.0 earthquake in Alaska. International Journal of Earth Sciences, https://doi.org/10.1007/s00531-021-02010-2.
   
       

      29. Murphy, J.B., Nance, R.D., Cawood, P.A., Collins, W.J., Dan, W., Doucet, S., Heron, P.J., Li, Z.-X., Mitchell, R.N., Pisarevsky, S., Pufahl, P.K., Quesada, C., Spencer, C.J., Strachan, R.A., Wu, L., 2021. Pannotia: In defence of its existence and geodynamic significance, in: Murphy, J.B., Strachan, R.A., Quesada, C. (Eds.), Pannotia to Pangaea: Neoproterozoic and Paleozoic Orogenic Cycles in the Circum-Atlantic Region. Geological Society, London, Special Publications 503, pp. 13-39. 
   
       

      28. Li, X.H., Zeng, Z.G., Dan, W., Yang, H.X., Wang, X.Y., Fang, B.W., Li, Q.L., 2020. Source lithology and crustal assimilation recorded in low  18O olivine from Okinawa Trough, back-arc basin. Lithos 360-361, 105444.
   
       

      27. Liu, X., Wang, Q., Ma, L., Wyman, D.A., Zhao, Z.-H., Yang, J.-H., Zi, F., Tang, G.-J., Dan, W., Zhou, J.-S., 2020. Petrogenesis of Late Jurassic Pb–Zn mineralized high  18O granodiorites in the western Nanling Range, South China. Journal of Asian Earth Sciences 192, 104236.
   
       

      26. Maulana, A., Br?cker, M., Dan, W., 2020. Petrogenesis and geochronology of Cenozoic intrusions in the Poboya and Sassak gold and copper districts in Western Sulawesi, Indonesia: Implications for the mineralization processes and magma sources. Journal of Asian Earth Sciences 193, 104303.
   
       

      25. Ou, Q., Wang, Q., Zhang, C.F., Zhang, H.X., Hao, L.L., Yang, J.H., Lai, J.Q., Dan, W., Jiang, Z.Q., Xia, X.P., 2020. Petrogenesis of late Early Oligocene trachytes in central Qiangtang Block, Tibetan Plateau: crustal melting during lithospheric delamination? International Geology Review 62, 225-242.
   
       

      24. Sun, P., Dan, W., Wang, Q., Tang G.J., Ou, Q., Hao, L.L., Jiang, Z.Q., 2020. Zircon U–Pb geochronology and Sr–Nd–Hf–O isotope geochemistry of Late Jurassic granodiorites in the southern Qiangtang block, Tibet: Remelting of ancient mafic lower crust in an arc setting? Journal of Asian Earth Sciences 192, 104235.
   
       

      23. Tang, G.-J., Wang, Q., Wyman, D.A., Dan, W., Ma, L., Zhang, H.-X., Zhao, Z.-H, 2020. Petrogenesis of the Ulungur Intrusive Complex, NW China, and Implications for Crustal Generation and Reworking in Accretionary Orogens. Journal of Petrology 61, egaa018.
   
       

      22. Wang, Q., Tang, G., Hao, L., Wyman, D., Ma, L., Dan, W., Zhang, X., Liu, J., Huang, T., Xu, C, 2020. Ridge subduction, magmatism and metallogenesis. Science China Earth Sciences 63, 1499-1518. (王強, 唐功建, 郝露露, WYMAN, D., 馬林, 但衛, 張修政, 劉金恒, 黃彤宇, 許傳兵, 2020. 洋中脊或海嶺俯沖與巖漿作用及金屬成礦. 中國科學(xué):地球科學(xué), 50(10): 1401-1423.)
       

      21. Wang, Q., Hao, L.L., Zhang, X.Z., Zhou, J.S., Wang, J., Li, Q.W., Ma, L., Zhang, L., Qi, Y., Tang, G.J., Dan, W., Fan, J.J., 2020. Adakitic rocks at convergent plate boundaries: Compositions and petrogenesis. Science China-Earth Sciences 63, 1992-2016. (王強, 郝露露, 張修政, 周金勝, 王軍, 李奇維, 馬林, 張龍, 齊玥, 唐功建, 但衛, 范晶晶, 2020. 匯聚板塊邊緣的埃達克質(zhì)巖:成分和成因. 中國科學(xué):地球科學(xué), 50(12): 1845-1873.)
   
       

      20. Hao, L.L., Wang, Q., Zhang, C.F., Ou, Q., Yang, J.H., Dan, W., Jiang, Z.Q., 2019. Oceanic plateau subduction during closure of the Bangong-Nujiang Tethyan Ocean: Insights from central Tibetan volcanic rocks. Geological Society of America Bulletin 131, 864-880.
   
       

      19. Ma, Y.M., Wang, Q., Wang, J., Yang, T.S., Tan, X.D., Dan, W., Zhang, X.Z., Ma, L., Wang, Z.L., Hu, W.L., Zhang, S.H., Wu, H.C., Li, H.Y., Cao, L.W., 2019. Paleomagnetic Constraints on the Origin and Drift History of the North Qiangtang Terrane in the Late Paleozoic. Geophysical Research Letters 46, 689-697.
   
       

      18. Ou, Q., Wang, Q., Wyman, D.A., Zhang, C.F., Hao, L.L., Dan, W., Jiang, Z.Q., Wu, F.Y., Yang, J.H., Zhang, H.X., Xia, X.P., Ma, L., Long, X.P., Li, J., 2019. Postcollisional delamination and partial melting of enriched lithospheric mantle: Evidence from Oligocene (ca. 30 Ma) potassium-rich lavas in the Gemuchaka area of the central Qiangtang Block, Tibet. Geological Society of America Bulletin 131, 1385-1408.
   
       

      17. Tang, G.J., Wang, Q., Wyman, D.A., Dan, W., 2019. Crustal maturation through chemical weathering and crustal recycling revealed by Hf-O-B isotopes. Earth and Planetary Science Letters 524.
   
       

      16. Yang, Z.Y., Wang, Q., Yang, J.H., Dan, W., Zhang, X.Z., Ma, L., Qi, Y., Wang, J., Sun, P., 2019. Petrogenesis of Early Cretaceous granites and associated microgranular enclaves in the Xiabie Co area, central Tibet: Crust-derived magma mixing and melt extraction. Lithos 350-351, 105199.
   
       

      15. Yang, Z.-Y., Wang, Q., Zhang, C., Dan, W., Zhang, X.-Z., Qi, Y., Xia, X.-P., Zhao, Z.-H., 2018. Rare earth element tetrad effect and negative Ce anomalies of the granite porphyries in southern Qiangtang Terrane, central Tibet: New insights into the genesis of highly evolved granites. Lithos 312-313, 258-273.
   
       

      14. 張修政, 董永勝, 王強, 但衛, 2018. 青藏高原羌塘中部高壓變質(zhì)帶的研究進(jìn)展及存在問(wèn)題. 地質(zhì)通報, 37(8): 1406-1416.
   
       

      22. 雷東寧, 姚運生, 但衛, 李雪, 蔡永建, 余松, 2018. 深圳橫崗-羅湖斷裂中南段活動(dòng)特征及現今構造變形監測. 大地構造與成礦學(xué), 42(2): 225-234.
   
       

      13. Tang, G.-J., Wang, Q., Zhang, C., Wyman, D. A., Dan, W., Xia, X.-P., Chen, H.-Y., Zhao, Z.-H., 2017. Sr-Nd-Hf-O isotope geochemistry of the Ertaibei pluton, East Junggar, NW China: Implications for development of a crustal-scale granitoid pluton and crustal growth. Geochemistry Geophysics Geosystems 18, 3340–3358.
   
       

      12. Zhang, X.-Z., Dong, Y.-S., Wang, Q., Dan, W., Zhang, C., Xu, W., Huang, M.-L., 2017. Metamorphic records for subduction erosion and subsequent underplating processes revealed by garnet-staurolite-muscovite schists in central Qiangtang, Tibet. Geochemistry Geophysics Geosystems18, 266–279.
   
       

      11. 王強, 但衛, 紀偉強, 張修政, 梁華英, 朱弟成, 夏小平, 馬林, 2017. 中國西部燕山運動(dòng)及巖漿作用與成礦. 礦物巖石地球化學(xué)通報, 36(4): 571-574.
   
       

      10. Hao, L.L., Wang, Q., Wyman, D.A., Ou, Q., Dan, W., Jiang, Z.Q., Wu, F.Y., Yang, J.H., Long, X.P., Li, J., 2016. Underplating of basaltic magmas and crustal growth in a continental arc: Evidence from Late Mesozoic intermediate–felsic intrusive rocks in southern Qiangtang, central Tibet. Lithos 245: 223–242.
   
       

      9. Hao, L.L., Wang, Q., Wyman, D.A., Ou, Q., Dan, W., Jiang, Z.Q., Yang, J.H., Long, X.P., Li, J., 2016. Partial melting of the m lange for the growth of andesitic crust indicated by the Early Cretaceous arc dioritic/andesitic rocks in southern Qiangtang, central Tibet. Geochemistry Geophysics Geosystems 17, doi:10.1002/2016GC006248.
   
       

      8. Wang, Q., Hawkesworth, C.J., Wyman, D., Chung, S.L., Wu, F.Y., Li, X.H,. Li, Z.X., Gou, G.N., Zhang, X.Z., Tang, G.J., Dan, W., Ma, L., Dong, Y.H., 2016. Pliocene-Quaternary crustal melting in central and northern Tibet and insights into crustal flow. Nature Communications 7, 11888, doi: 10.1038/ncomms11888.
   
       

      7. Zhang, X.Z., Dong, Y.S., Wang, Q., Dan, W., Zhang, C.F., Deng, M.R., Xu, W., Xia, X.P., Zeng, J.P., Liang, H., 2016. Carboniferous and Permian evolutionary records for the Paleo-Tethys Ocean constrained by newly discovered Xiangtaohu ophiolites from central Qiangtang, central Tibet. Tectonics 35, 1670–1686.
   
       

      6. 王強, 茍國寧, 張修政, 但衛, 唐功建, 馬林, 2016. 青藏高原中北部地殼流動(dòng)與高原擴展:來(lái)自火山巖的證據. 中國科學(xué)基金: 492-498.
   
       

      5. Long, X.P., Wilde, S.A., Wang, Q., Yuan, C., Wang, X.C., Li, J., Jiang, Z.Q., Dan, W., 2015. Partial melting of thickened continental crust in central Tibet: Evidence from geochemistry and geochronology of Eocene adakitic rhyolites in the northern Qiangtang Terrane. Earth and Planetary Science Letters 414, 30–44.
   
       

      4. Tang, G.J., Chung, S.L., Wang, Q., Wyman, D.A., Dan, W., Chen, H.Y., Zhao, Z.H., 2014. Petrogenesis of a Late Carboniferous mafic dike–granitoid association in the western Tianshan: Response to the geodynamics of oceanic subduction. Lithos 202-203, 85–99.
   
       

      3. Yang, K.G., Liu, Q., Xie, J.L., Dan, W., She, Z.B., Ma, C.Q., 2009. Deformation features of garnet-bearing granites from Huwan, western Dabie Mountains. Science in China Series D-Earth Sciences 52, 55-65. (楊坤光, 謝建磊, 劉強, 但衛, 佘振兵, 馬昌前, 2009. 西大別滸灣面理化含榴花崗巖變形特征與鋯石SHRIMP定年. 中國科學(xué)D:地球科學(xué), 39(4): 464-473.
   
       

      2. 李峰, 韓曉玉, 但衛, 耿愛(ài)玲, 2008. 三峽水庫巴東地區的地震活動(dòng)分析. 大地測量與地球動(dòng)力學(xué), 28(4): 63-67.
   
       

      1. 易順華, 朱章顯, 金軍, 但衛, 2006. 非同沉積斷裂活動(dòng)對鄰斷裂巖層厚度變化的控制作用. 地質(zhì)力學(xué)學(xué)報, 12(4): 441-444.
  
      • 
                            
    
                            
      
                                
      承擔科研項目情況:
      
                                
    • 1. 2019-2022, 第二次青藏高原綜合科學(xué)考察研究下屬專(zhuān)題“典型地區巖石圈組成、演化與深部過(guò)程”,課題骨干
   
       

      2. 2016-2020, 國家重點(diǎn)研發(fā)計劃“深地資源勘查開(kāi)采”子課題,“特提斯洋演化對中生代燕山期構造運動(dòng)的影響”,負責人
   
       

      3. 2016-2019,國家自然科學(xué)基金面上項目,青藏中部羌塘地區苦橄質(zhì)巖石的成因和動(dòng)力學(xué)意義,負責人
   
       

      4. 2017-2021, 國家基金委重點(diǎn)項目,“青藏羌塘中部沱沱河新生代侵入巖的時(shí)空格架、成因及其形成的地球動(dòng)力學(xué)過(guò)程”,課題骨干
   
       

      5. 2016-2020, 中國科學(xué)院前沿科學(xué)重點(diǎn)研究項目, “青藏高原中北部新生代陸內巖石圈演化”,課題骨干
  
      •