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胡修棉
  • 职称: 教授
  • 岗位: 仅研究系列选择
  • 联系电话: 025-89683002
  • 办公地址: 仙林校区朱共山楼A334室
  • 电子邮件: huxm@nju.edu.cn
  • 课题组链接: https://es.nju.edu.cn/huxiumian/

个人简介

教育经历

工作经历

学术兼职

研究方向

课题组网站:https://es.nju.edu.cn/huxiumian/

主要研究兴趣

l大陆碰撞、高原隆升与沉积盆地

l中新生代温室气候与古海洋

l青藏特提斯地质演化

l大洋红层与黑色页岩


开授课程

科研项目

国际学术论文 

As first author and corresponding author (SCI)  

      (1)Hu X., Garzanti E., Wang J., Huang W., An W., Webb A., 2016. The timing of India-Asia collision onset – facts, theories, controversies. Earth-Science Reviews, v. 160, p. 264–299.  

(2)Hu, X., Wang, J., BouDagher-Fadel, M., Garzanti, E., and An, W., 2016, New insights into the timing of the India–Asia collision from the Paleogene Quxia and Jialazi formations of the Xigaze forearc basin, South Tibet: Gondwana Research, v. 32, p. 76-92. 

(3)Hu, X., Garzanti, E., Moore, T., and Raffi, I., 2015, Direct stratigraphic dating of India-Asia collision onset at the Selandian (middle Paleocene, 59 ± 1 Ma): Geology, v. 43, p. 859-862. 

(4)Hu, X.M., An, W., Wang, J.G., Garzanti, E., and Guo, R.H., 2014, Himalayan detrital chromian spinels and timing of Indus-Yarlung ophiolite erosion: Tectonophysics, v. 621, p. 60-628. 

(5)Hu, X., Scott, R.W., Cai, Y., Wang, C., and Melinte-Dobrinescu, M.C., 2012, Cretaceous Oceanic Red Beds (CORBs): Different time scales and models of origin. Earth Science Reviews, v. 115, p. 217-248. 

(6)Hu, X., Sinclair, H.D., Wang, J.G., Jiang, H., and Wu, F.Y., 2012, Late Cretaceous-Palaeogene stratigraphic and basin evolution in the Zhepure Mountain of southern Tibet: implications for the timing of India-Asia initial collision: Basin Research, v. 24, p. 520-543. 

(7)Hu, X.M., Zhao, K.D., Yilmaz, I.O., and Li, Y.X., 2012, Stratigraphic transition and palaeoenvironmental changes from the Aptian oceanic anoxic event 1a (OAE1a) to the oceanic red bed 1 (ORB1) in the Yenicesihlar section, central Turkey: Cretaceous Research, v. 38, p. 40-51 

(8)Hu, X., Wagreich, M., Yilmaz, I.O., 2012, Marine rapid environmental/climatic change in the Cretaceous greenhouse world. Cretaceous Research, v. 38, p. 1-6. 

(9)Hu, X., 2012, Testing the validity of Nd isotopes as a provenance tool in southern Tibet for constraining the initial India–Asia collision: Journal of Asian Earth Sciences, v. 53, p. 51-58. 

 (10)Hu, X., Huang, Z., Wang, J., Xu, K., Hu, W., and Jansa, L., 2012, Geology of the Fuding inlier in southeastern China: implication for late Paleozoic Cathaysian paleogeography: Gondwana Research, v. 22, p. 507-518.  

(11)Hu, X., Jansa, L., Chen, L., Griffin, W.L., O'Reilly, S.Y., and Wang, J., 2010, Provenance of Lower Cretaceous Wölong Volcaniclastics in the Tibetan Tethyan Himalaya: Implications for the final breakup of Eastern Gondwana: Sedimentary Geology, v. 223, p. 193-205.  

(12)Hu, X., Cheng, W., and Ji, J., 2009, Origin of the Cretaceous Oceanic Red Beds (CORBs) as interpreted by Visible Reflectance and Inorganic Geochemistry from the Vispi Quarry Section, Central Italy, in Hu, X., Wang, C., Scott, R.W., Wagreich, M., and Jansa, L., eds., Cretaceous Oceanic Red Beds: Stratigraphy, Composition, Origins and Paleoceanographic/Paleoclimatic Significance: Tulsa, OK, SEPM Special Publication 91, p. 183-197.  

(13)Hu, X., Jansa, L., and Wang, C.S., 2008, Upper Jurassic-Lower Cretaceous stratigraphy in south-eastern Tibet: a comparison with the western Himalayas: Cretaceous Research, v. 29, p. 301-315.  

(14)Hu, X., Jansa, L., and Sarti, M., 2006, Mid-Cretaceous oceanic red beds in the Umbria-Marche Basin, central Italy: Constraints on paleoceanography and paleoclimate: Palaeogeography Palaeoclimatology Palaeoecology, v. 233, p. 163-186. 

 (15)Hu, X., Wang, C., Li, X., and Luba, J., 2006, Upper Cretaceous oceanic red beds in southern Tibet: Lithofacies, environments and colour origin: Science in China Series D-Earth Sciences, v. 49, p. 785-795.  

(16)Hu, X., Jansa, L., Wang, C.S., Sarti, M., Bak, K., Wagreich, M., Michalik, J., and Sotak, J., 2005, Upper Cretaceous oceanic red beds (CORBs) in the Tethys: occurrences, lithofacies, age, and environments: Cretaceous Research, v. 26, p. 3-20. 

As second author and corresponding author (SCI)  

 (17)An, W., *Hu, X.M., Garzanti, E., 2016. Sandstone provenance and tectonic evolution of the Xiukang Mélange from Neotethyan subduction to India–Asia collision (Yarlung-Zangbo suture, south Tibet). Gondwana Research, published online. doi: 10.1016/j.gr.2015.08.010  

(18)Li, J., *Hu, X.M., Zhao, K.D., Cai, Y.F., Sun, T., 2016. Paleoceanographic evolution and chronostratigraphy of the Aptian Oceanic Anoxic Event 1a (OAE1a) to oceanic red bed 1 (ORB1) in the Gorgo a Cerbara section (central Italy) Cretaceous Research, v. 66, p. 125-128. 

(19)Han, Z., *Hu, X.M., Li, J., Garzanti, E., 2016. Jurassic carbonate microfacies and relative sea-level changes in theTethys Himalaya (southern Tibet). Palaeogeography Palaeoclimatology Palaeoecology, v. 456, p. 1-20. 

(20)Sun, G.-Y., *Hu, X.-M., Zhu, D.-C., Hong, W.-T., Wang, J.-G., and Wang, Q., 2015a, Thickened juvenile lower crust-derived ~ 90 Ma adakitic rocks in the central Lhasa terrane, Tibet: Lithos, v. 224–225, p. 225-239. 

(21)Sun, G., *Hu, X., Sinclair, H.D., BouDagher-Fadel, M.K., and Wang, J., 2015b, Late Cretaceous evolution of the Coqen Basin (Lhasa terrane) and implications for early topographic growth on the Tibetan Plateau: Geological Society of America Bulletin, v. 127, p. 1001-1020. 

(22)*Garzanti, E., and *Hu, X., 2015. Latest Cretaceous Himalayan tectonics: Obduction, collision or Deccan-related uplift?. Gondwana Research, 28(1): 165-178. doi.org/10.1016/j.gr.2014.03.010. 

(23) Li, J., *Hu, X., Garzanti, E., An, W., and Wang, J., 2015. Paleogene carbonate microfacies and sandstone provenance (Gamba area, South Tibet): Stratigraphic response to initial India–Asia continental collision. Journal of Asian Earth Sciences, 104: 29-54.   

(24)An W., *Hu, X., Garzanti, E., BouDagher-Fadel, M., Wang, J., Sun, G., 2014. Xigaze forearc basin revisited (South Tibet): Provenance changes and origin of the Xigaze Ophiolite. Geological Society of American Bullitin, 126: 1595-1613  

(25)Wang, J.-G., *Hu, X.-M., Garzanti, E. and Wu, F.-Y., 2013. Upper Oligocene–Lower Miocene Gangrinboche Conglomerate in the Xigaze Area, Southern Tibet: Implications for Himalayan Uplift and Paleo-Yarlung-Zangbo Initiation. The Journal of Geology, 121(4): 425-444. 

(26)*Wang, C., *Hu, X., Huang, Y., Wagreich, M., Scott, R.W., and Hay, W.W., 2011, Cretaceous oceanic red beds as possible consequence of oceanic anoxic events: Sedimentary Geology, v. 235, p. 27-37. 

(27)Li, X., *Hu, X., Cai, Y., and Han, Z., 2011, Quantitative analysis of iron oxide concentrations within Aptian-Albian cyclic oceanic red beds in ODP Hole 1049C, North Atlantic: Sedimentary Geology, v. 235, p. 91-99. 

 (28)Wang, J., *Hu, X., Jansa, L., and Huang, Z., 2011, Provenance of the Upper Cretaceous-Palaeocene Deep-Water Sandstones in Sangdanlin, Southern Tibet: Constraints on the Timing of Initial India-Asia Collision: The Journal of Geology, v. 119, p. 293-309.  

(29)Wang, J.G., *Hu, X.M., Wu, F.Y., and Jansa, L., 2010, Provenance of the Liuqu Conglomerate in southern Tibet A Paleogene erosional record of the Himalayan-Tibetan orogen: Sedimentary Geology, v. 231, p. 74-84.  

(30)Wang, C.S., * Hu, X.M., Sarti, M., Scott, R.W., and Li, X.H., 2005, Upper Cretaceous oceanic red beds in southern Tibet: a major change from anoxic to oxic, deep-sea environments: Cretaceous Research, v. 26, p. 21-32. 

As second author (SCI)   

(31)Wang, J.-G., Hu, X.-M., BouDagher-Fadel, M., Wu, F.-Y., and Sun, G.-Y., 2015, Early Eocene sedimentary recycling in the Kailas area, southwestern Tibet: implications for the initial India-Asia collision: Sedimentary Geology, v. 315, p. 1-13.  

(32)He, L.F., Hu, X.M., Zha, Y.B., Xu, L.G., Wang, Y.H., 2014, Distribution and origin of high magnetic anomalies at Luobusa Ophiolite in southern Tibet: Chinese Science Bulletin, v. 59 (23), p. 2898-2908. 

(33)He, L.F., Hu, X.M., Xu, L.G., He, Z.X., and Li, W.L., 2012, Feasibility of monitoring hydraulic fracturing using time-lapse audio-magnetotellurics: Geophysics, v. 77, p. WB119-WB126. 

(34)Wagreich, M., Hu, X., and Sageman, B., 2011, Causes of oxic-anoxic changes in Cretaceous marine environments and their implications for Earth systems--An introduction: Sedimentary Geology, v. 235, p. 1-4. 

(35)Wang, C., Hu, X., Huang, Y., Scott, R., and Wagreich, M., 2009, Cretaceous Oceanic Red Beds (CORB): A Window on Global Oceanic/Climatic Change, in Hu, X., Wang, C., Scott, R.W., Wagreich, M., and Jansa, L., eds., Cretaceous Oceanic Red Beds: Stratigraphy, Composition, Origins and Paleoceanographic/Paleoclimatic Significance: Tulsa, OK, SEPM Special Publication 91, p. 13-33. 

(36)Scott, R., Hu, X., Wang, C., Michael., W., and Jansa, L., 2009, Introduction, in Hu, X., Wang, C., Scott, R.W., Wagreich, M., and Jansa, L., eds., Cretaceous Oceanic Red Beds: Stratigraphy, Composition, Origins and Paleoceanographic/Paleoclimatic Significance: Tulsa, OK, SEPM Special Publication 91, p. 7-10. 

(37)Jansa, L., and Hu, X., 2009, An Overview of the Cretaceous pelagic black shales and red beds: origin, paleoclimate and paleoceanographic implications, in Hu, X., Wang, C., Scott, R.W., Wagreich, M., and Jansa, L., eds., Cretaceous Oceanic Red Beds: Stratigraphy, Composition, Origins and Paleoceanographic/Paleoclimatic Significance: Tulsa, OK, SEPM Special Publication 91, p. 59-72. 

 (38)Wang, C.S., Hu, X.M., Jansa, L., Wan, X.Q., and Tao, R., 2001, The Cenomanian-Turonian anoxic event in southern Tibet: Cretaceous Research, v. 22, p. 481-490.  

As coauthor (third or more; SCI)  

(39)Wang, J.G., Wu, F.Y., Garzanti, E., Hu, X.M., Ji, W.Q., Liu, Z.C., Liu, X.C., 2016. Upper Triassic turbidites of the northern Tethyan Himalaya (Langjiexue Group): The terminal of a sediment-routing system sourced in the Gondwanide Orogen. Gondwana Research, v. 34, p. 84-98.  

(40)BouDagher-Fadel, M.K., Price, G.D., Hu, X., and Li, J., 2015, Late Cretaceous to early Paleogene foraminiferal biozones in the Tibetan Himalayas, and a pan-Tethyan foraminiferal correlation scheme: Stratigraphy, v. 12, p. 67-91. 

(41)Huang, W., van Hinsbergen, D.J.J., Dekkers, M.J., Garzanti, E., Dupont-Nivet, G., Lippert, P.C., Li, X., Maffione, M., Langereis, C.G., Hu, X., Guo, Z., and Kapp, P., 2015, Paleolatitudes of the Tibetan Himalaya from primary and secondary magnetizations of Jurassic to Lower Cretaceous sedimentary rocks: Geochemistry Geophysics Geosystems, v. 16, p. 77-100. 

(42)Yu, J.H., Liu, Q., Hu, X.M., Wang, Q., and O'Reilly, S.Y., 2013, Late Paleozoic magmatism in South China: Oceanic subduction or intracontinental orogeny?: Chinese Science Bulletin, v. 58, p. 788-795. 

(43)Li, X., Cai, Y.F., Hu, X.M., Huang, Z.C. and Wang, J.G., 2012. Mineralogical characteristics and geological significance of Albian (Early Cretaceous) glauconite in Zanda, southwestern Tibet, China. Clay Minerals, 47(1): 45-58. 

(44)Cai, Y.F., Li, X., Hu, X.M., Chen, X.M., and Pan, Y.G., 2009, Paleoclimatic approach to the origin of the coloring of Turonian pelagic limestones from the Vispi Quarry section (Cretaceous, central Italy): Cretaceous Research, v. 30, p. 1205-1216. 

  (45)Li, G., Jiang, G., Hu, X., and Wan, X., 2009, New biostratigraphic data from the Cretaceous Bolinxiala Formation in Zanda, southwestern Tibet of China, and their paleogeographic and paleoceanographic implications: Cretaceous Research, v. 30, p. 1005-1018.  

(46)Jiang, S.Y., Jansa, L., Skupien, P., Yang, J.H., Vasicek, Z., Hu, X.M., and Zhao, K.D., 2009, Geochemistry of intercalated red and gray pelagic shales from the Mazak Formation of Cenomanian age in Czech Republic: Episodes, v. 32, p. 3-12. 

 (47)Chen, X., Wang, C.S., Hu, X.M., Huang, Y.J., Wang, P.K., Luba, J., and Zeng, X., 2007, Cretaceous oceanic red beds: Distribution, lithostratigraphy and paleoenvironments: Acta Geologica Sinica-English Edition, v. 81, p. 1070-1086.  

(48)Huang, Y.J., Wang, C.S., Hu, X.M., and Chen, X., 2007, Burial records of reactive iron in Cretaceous black shales and oceanic red beds from southern Tibet: Acta Geologica Sinica-English Edition, v. 81, p. 463-469. 

(49)Li, Y.L., Wang, C.S., Hu, X.M., Bak, M., Wang, J.J., and Chen, L., 2007, Characteristics of Early Eocene radiolarian assemblages of the Saga area, southern Tibet and their constraint on the closure history of the Tethys: Chinese Science Bulletin, v. 52, p. 2108-2114.  

(50)Li, G.B., Wan, X.Q., Jiang, G.Q., Hu, X.M., Goudemand, N., Han, H.D., and Chen, X., 2007, Late Cretaceous foraminiferal faunas from the Saiqu melange in southern Tibet: Acta Geologica Sinica-English Edition, v. 81, p. 917-924. 

(51)Scott, R.W., Wang, C.S., and Hu, X.M., 2006, Cretaceous oceanic red beds (CORB), response to paleoclimatic/paleoceanographic global changes and regional tectonics - Workshop of IGCP 463 & 494 - Neuchatel, Switzerland, September 1-2, 2005: Episodes, v. 29, p. 49-51.  

  (52)Li, X.H., Jenkyns, H.C., Wang, C.S., Hu, X.M., Chen, X., Wev, Y., Huang, Y.J., and Cui, J., 2006, Upper Cretaceous carbon- and oxygen-isotope stratigraphy of hemipelagic carbonate facies from southern Tibet, China: Journal of the Geological Society, v. 163, p. 375-382.  

(53)Li, X.H., Wang, C.S., and Hu, X.M., 2005, Stratigraphy of deep-water Cretaceous deposits in Gyangze, southern Tibet, China: Cretaceous Research, v. 26, p. 33-41. 

(54)Zou, Y.R., Kong, F., Peng, P.A., Hu, X.M., and Wang, C.S., 2005, Organic geochemical characterization of Upper Cretaceous oxic oceanic sediments in Tibet, China: a preliminary study: Cretaceous Research, v. 26, p. 65-71. 

(55)Liu, Z., Wang, C., Trentesaux, A., Zhao, X., Yi, H., Hu, X., and Jin, W., 2003, Paleoclimate changes during early Oligocene in the Hoh Xil region, northern Tibetan Plateau: Acta Geologica Sinica, v. 77, p. 504-513.  

(56)Wang, C.S., Li, X.H., Hu, X.M., and Jansa, L.F., 2002, Latest marine horizon north of Qomolangma (Mt Everest): implications for closure of Tethys seaway and collision tectonics: Terra Nova, v. 14, p. 114-120.  

国内核心刊物(第一、第二作者) 

第一作者且通讯作者     

1.Hu, X.-M., Garzanti, E., and An1, W., 2015, Provenance and drainage system of the Early Cretaceous volcanic detritus in the Himalaya as constrained by detrital zircon geochronology: Journal of Palaeogeography, 4: 85-98. 

2.胡修棉, 2015. 东特提斯洋晚中生代古近纪重大事件研究进展自然杂志, 37: 93-102 

3.胡修棉, 2013. 显生宙海相红层的分布_类型与成因机制矿物岩石地球化学通报, 32: 335-342. 

4.胡修棉王成善, 2007. 白垩纪大洋红层特征分布与成因高校地质学报, 13(1): 1-13. 

5.胡修棉王成善 and 李祥辉, 2006. 藏南上白垩统大洋红层岩石类型沉积环境与颜色成因中国科学: D , 36(9): 811-821. 

6.胡修棉王成善李祥辉 and 陈蕾, 2006. 藏南古错地区上侏罗统上部和下白垩统沉积相古地理学报, 8(2): 175-186. 

7.胡修棉, 2005. 白垩纪温室气候与海洋中国地质, 31(4): 442-448. 

8.胡修棉, 2005. 白垩纪中期异常地质事件与全球变化地学前缘, 12(2): 222-230. 

9.胡修棉, 2005. 西班牙南部 Subbetic 中带 Río Fardes 剖面 Turonian-Coniacian 大洋红层地学前缘, 12(2): 38-44. 

10.胡修棉黄永键, 2002.  “南永 2 井珊瑚礁 ‘红色与黑色沉积夹层的成因及环境意义初探” 商榷科学通报, 47(4): 318-319. 

11.胡修棉 and 王成善, 2001. 大洋缺氧事件的碳稳定同位素响应成都理工学院学报, 28(001): 1-6. 

12.胡修棉王成善, 2001. 古海洋溶解氧研究方法综述地球科学进展, 16(001): 65-71. 

13.胡修棉王成善李祥辉, 2001. 藏南海相白圭纪碳酸盐碳稳定同位素演化与古海洋溶解氧事件自然科学进展, 11(7): 721-728 

14.胡修棉王成善李祥辉范善发彭平安, 2000. 西藏南部 Cenomanian—Turonian 缺氧事件有机地球化学研究地球化学, 29(5): 417-424. 

15.胡修棉吴德超, 2000. 米仓山南缘基底断裂带上两段有限应变和形成条件成都理工学院学报, 27(003): 232-236. 

16.胡修棉王成善, 1999. 100Ma 以来若干重大地质事件与全球气候变化大自然探索, 18(001): 53-58. 

第二作者且通讯作者     

17.李娟, *胡修棉, 2013. 藏南定日地区上三叠统-古近系构造沉降分析与沉积盆地特征岩石学报, 29: 3841-3853. 

18.孙高远, *胡修棉, 2012. 仲巴地体的板块亲缘性_来自碎屑锆石U_Pb年代学和Hf同位素的证据岩石学报, 28: 1635-1646. 

19.安慰, *胡修棉王建刚, 2012. 藏南日喀则弧前盆地帕达那组沉积相分析沉积学报, 30: 619-625. 

20.郭荣华, *胡修棉王建刚. 2012. 日喀则弧前盆地碎屑铬尖晶石地球化学与物源判别地学前缘, 19: 70-77. 

21.孙高远, *胡修棉王建刚, 2011. 藏南江孜县白沙地区宗卓混杂岩岩石组成与物源区分析地质学报, 85(8): 1343-1351. 

22.张晓峰, *胡修棉王成善, 2010. 藏南白垩纪缺氧与富氧沉积的稀土元素地球化学特征矿物岩石地球化学通报(002): 173-180. 

23.王建刚, *胡修棉, 2008. 砂岩副矿物的物源区分析新进展地质论评, 54(5): 670-678. 

24.韩志艳, *胡修棉季峻峰黄永建黄志诚, 2008. 北大西洋 ODP1049C  Aptian—Albian 期高频旋回大洋红层的成因矿物学证据地质学报, 82(1): 124-132. 

25.王建刚, *胡修棉黄志诚, 2008. 藏南桑单林地区晚白垩世-始新世砂岩物源区分析地质学报, 82(001): 92-103. 

26.陈蕾, *胡修棉黄志诚, 2007. 藏南早白垩世火山岩屑砂岩对印度大陆北缘火山事件的约束地质学报, 81(4): 501-510. 

第二作者     

27.王成善胡修棉, 2005. 白垩纪世界与大洋红层地学前缘, 12(002): 11-21. 

28.刘志飞胡修棉, 2003. 白垩纪至早第三纪的极端气候事件地球科学进展, 18(5): 681-690. 

29.王成善胡修棉万晓樵陶然, 1999. 西藏南部中白垩世 Cenomanian-Turonian 缺氧事件研究自然杂志, 21(4): 244-246. 

30.王成善胡修棉, 1999. 古海洋溶解氧与缺氧和富氧问题研究海洋地质与第四纪地质, 19(003): 39-47. 

31.吴德超胡修棉. 1998. 四川南江上两脆-韧性叠加断裂带构造解析成都理工学院学报, 25: 517-523. 

 


学术成果

荣誉奖励

2017年获国家万人计划领军人才  

2016年获英国皇家学会牛顿高级学者基金  

2016年获科技部中青年科技创新领军人才  

2015年获国家杰出青年科学基金 

2012年获第十四届侯德封矿物岩石地球化学青年科学家奖 

2005年入选教育部新世纪优秀人才支持计划 

2010年入选南京大学优秀中青年学科带头人培养计划(A类) 


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