李超  副教授              

办公地址:海洋楼606 办公电话:021-65982208
电子邮箱: cli@tongji.edu.cn 个人主页:http://ocean.tongji.edu.cn/space/lichao/
通讯地址:上海市四平路1239号,同济大学海洋与地球科学学院,邮编200092
  1. 教育背景

    2009.09-2010.09:University of British Columbia联合培养

    2008.09-2011.12:同济大学,海洋地质专业,博士

    2006.10-2007.09:University of Bremen联合培养

    2005.09-2008.09:中国海洋大学,地球化学专业,硕士

    2001.09-2005.09:中国海洋大学,环境科学专业,本科

  1. 工作经历

       2018.01-至今:同济大学海洋学院,副教授

   2016.06-2017.12:同济大学海洋高等研究院,助理研究员

    2015.06-2015.11:澳大利亚昆士兰大学Radiogenic Isotope Facility实验室,访问学者

    2014.04-2016.06:同济大学环境科学与工程学院,博士后

    2012.01-2014.04:同济大学海洋与地球科学学院,博士后

  1. 研究兴趣
  • 根据铀系不平衡原理计算沉积物“粉碎时间”,据此探讨中国东部大陆边缘主要河流及边缘海沉积物“从源到汇”的时间尺度。
  • 通过研究东亚及东南亚典型河流沉积物在流域的演化历史,试图揭示沉积物在流域产生、存储及搬运的一般规律
  • 晚第四纪以来不同时间尺度下中国东部环境演化的规律,自然及人类活动的双重驱动。
  1. 科研项目

主持(负责人)研究项目:

  1. 海洋地质国家重点实验室自主课题(探索课题项目)(项目批准号:MG20180204):红河流域沉积物滞留时间探究及与长江沉积物滞留时间的比较(2018.01-2019.12,经费:40万),负责人
  2. 海洋地质国家重点实验室自主课题(启动基金项目)(项目批准号:MG20170401):利用铀系同位素计算沉积物搬运时间尺度方法的改进研究(2017.01-2017.12,经费:10万),负责人
  3. 同济大学青年优秀人才培养计划(项目批准号:10120172016KJ007):南黄海钻孔沉积物“从源到汇”过程的时间(2017.01-2018.12,经费:5万),负责人
  4. 国家自然科学基金面上项目(项目批准号:41676035):我国东部典型河流及边缘海沉积物的“从源到汇”时间尺度探究(2017.01-2020.12,经费:64万),负责人
  5. 中国博士后基金(一等资助2015M570384):铀系同位素比值计算沉积物搬运时间:方法再研究(2015.5-2017.5,经费:8万),负责人
  6. 国家自然科学基金青年项目(项目批准号:41306040):探索沉积物源汇过程的时间尺度-利用234U/238U 估算长江和台湾河流沉积物的”搬运时间” (2014.01-2016.12,经费:27万),负责人
  7. 长江水环境教育部重点实验室开放课题(批准号:YRWEF201305):长江中下游水体氢氧同位素组成时空变化与环境意义(2013.1-2014.12,经费3万),负责人
  8. 中国博士后基金(2012M511129):长江口外缺氧区颗粒态铁的化学相态特征及环境指示(2012.5-2014.5,经费:5万),负责人

 

  1. 研究成果

第一及通讯作者论文(*):

  1. Yao, J. H., Xiao, L. X., Gou, M. M., Li, C.*, Lian, E. G., Yang, S. Y., 2017. Pacific Decadal Oscillation Impact on East China Precipitation and its Imprint in New Geological Documents, SCIENCE CHINA Earth Sciences, doi: 10.1360/N072016-00380. (SCI)
  2. Li, C., Yang, S.*, Lian, E., Wang, Q., Fan, D., Huang, X., 2017. Chemical speciation of iron in sediments from the Changjiang Estuary and East China Sea: iron cycle and paleoenvironmental implications. Quaternary International, 452: 116-128.
  3. Li, C.*, Yang, S.*, Zhao, J.X., Dosseto, A., Bi, L., Clark, T. R., 2016. The time scale of river sediment source-to-sink processes in East Asia, Chemical Geology, 446: 138-146.
  4. Li, C., Francois, R.*, Yang, S. Y.*, Barling, J., Darfeuil, S., Weis, D., 2016. Climate-related changes in the transport time of lithogenic sediments to the Okinawa Trough (East China Sea). Chemical Geology, 445: 199-207.
  5. Li, C., Yang, S. Y.*, Lian, E. G., Yang, C. F., Deng, K., Liu, Z. F., 2016. Damming effect on the Changjiang (Yangtze River) water cycle. Journal of Geochemical Exploration. 165, 125-133.
  6. Li, C., Yang, S. Y.*, Bi, L., Zhang, Z. F., 2015. A review of comminution age method and its potential application in the East China Sea to constrain the time scale of sediment source-to-sink transport. Journal of Ocean University of China, 14(3): 399-406.
  7. Li, C., Yang, S. Y.*, Zhang, W. G., 2012. Magnetic properties of sediments from major rivers, aeolian dust, loess soil and desert in China. Journal of Asian Earth Science. 45, 190-200.
  8. Li, C. and Yang, S.Y.*, 2010. Is chemical index of alteration (CIA) a reliable proxy for chemical weathering in global drainage basins? American Journal of Science. 310, 111-127.
  9. 王晨羽,连尔刚,杨承帆,邓凯,李超*,杨守业,印萍, 浙闽中小河流及其河口地区水循环的氢氧同位素示踪,海洋地质与第四纪地质,已接收.
  10. 姚嘉惠,肖林翔,苟萌萌,李超*,连尔刚,杨守业, 太平洋年代际振荡对中国东部季风区降水影响的新证据,中国科学:地球科学, doi: 10.1360/N072016-00380
  11. 李超,杨守业,毕磊,赵云, “从源到汇”的时间尺度——根据U系同位素计算海洋沉积物的搬运时间. 海洋地质前沿, 31, 26-31.
  12. 李超, 舒劲松, 许斐, 杨守业, 2013. 沉积物中铁的化学相态研究进展. 地球科学(中国地质大学学报), 3, 454-460. (EI检索)
  13. 李超, 杨守业, 2012. 长江沉积物中赤铁矿和针铁矿的漫反射光谱分析. 地球科学 (中国地质大学学报), 37 , 11-19. (EI检索)

其他参与发表论文

  1. Deng, K., Yang, S.*, Li, C., Su, N., Bi, L., Chang, Y.-P., Chang, S.-C., 2016. Detrital zircon geochronology of river sands from Taiwan: implications for sedimentary provenance of Taiwan and its source link with the east China mainland. Earth-Science Reviews, 164: 31-47.
  2. Han, Z.*, Liu, H., Li, C., Li, X., Wang, C., Sun, Y., Liu, B., Zhang, A., 2016. Geochemistry and provenances of core sediments from the Shikoku Basin. Geological Journal, 51: 60-76.
  3. Deng, K., Yang, S.*, Lian, E., Li, C., Yang, C., Wei, H., 2016. Three Gorges Dam alters the Changjiang (Yangtze) river water cycle in the dry seasons: Evidence from H-O isotopes. Science of the Total Environment, 562: 89-97.
  4. Dou, Y., Yang, S.*, Shi, X., Clift, P.D., Liu, S., Liu, J., Li, C., Bi, L., Zhao, Y., 2016. Provenance weathering and erosion records in southern Okinawa Trough sediments since 28 ka: Geochemical and Sr–Nd–Pb isotopic evidences. Chemical Geology, 425: 93-109.
  5. Yang, S.*, Bi, L., Li, C., Wang, Z., Dou, Y., 2015. Major sinks of the Changjiang (Yangtze River)-derived sediments in the East China Sea during the late Quaternary. The Geological Society of London (a special publication on River-Dominated Shelf Sediments of East Asian Seas). doi:10.1144/SP429.6
  6. Bi, L., Yang, S.*, Li, C., Guo, Y., Wang, Q., Liu, J.T., Yin, P., 2015. Geochemistry of river-borne clays entering the East China Sea indicates two contrasting types of weathering and sediment transport processes. Geochemistry, Geophysics, Geosystems: 16(9). doi: 10.1002/2015GC005867.
  7. Dou, Y., Yang, S.*, Li, C., Shi, X., Liu, J., Bi, L., 2015. Deepwater redox changes in the southern Okinawa Trough since the last glacial maximum. Progress in Oceanography, 135: 77-90.
  8. Shao, J., Yang, S.*, Li, C., Chemical indices (CIA and WIP) as proxies for integrated chemical weathering in China: Inferences from analysis of fluvial sediments. Sedimentary Geology, 265-266, 110-120.
  9. 邓凯, 杨守业, 王中波, 李超, 毕磊, 张永斌, 刘祖乾, 2016. 台湾山溪性小河流碎屑重矿物组成及其示踪意义. 沉积学报(03): 531-542.
  10. 杨承帆,尹观,连尔刚,李超,杨守业, 基于氢氧同位素方法的城市水体蒸发定量估算,上海国土资源,35, 82-85.
  11. 杨守业, 李超, 王中波, 王晓丹, 舒劲松, 2013. 现代长江沉积物地球化学组成的不均一性与物源示踪. 第四纪研究. 33, 645-655.
  12. 许斐, 杨守业, 展望, 李超, 钱鹏, 2011. 三峡水库建设对长江下游颗粒有机碳通量及碳同位素组成的影响. 地球化学. 40, 199-208.
  13. 王中波, 杨守业, 李日辉, 张志珣, 李军, 白凤龙, 李超, 2010. 黄河水系沉积物碎屑矿物组成及沉积动力环境约束. 海洋地质与第四纪地质. 30, 73-85.
  14. 韩宗珠, 李超, 来志庆, 2008. 冲绳海槽中南部浮岩的岩石地球化学特征及其成因. 海洋湖沼通报. 3, 61-66.
  15. 教学情况

暂无

  1. 指导研究生

在读研究生:

            硕士:王晨羽(联合指导,导师杨守业教授)

            博士:无

已毕业研究生:

            硕士:无

            博士:无

  1. 荣誉与奖励

2016.12 同济大学优秀出站博士后(三等奖)

2012.08 同济大学“优秀博士学位论文”

2010.11 中国海洋学会第四届青年科学家论坛(厦门)“优秀论文”

2010.10 同济大学“光华奖学金(博士)”

2010.07 教育部博士研究生“学术新人奖”

2009.08 同济大学优秀博士资助

2006.09 获德国联邦教育与研究部(BMBF)资助赴德国不莱梅大学留学一年

2005.07 中国海洋大学“优秀本科毕业论文”

2005.06 中国海洋大学“优秀团员”

  1. 学术期刊任职

  1. 学术组织任职

 


 

Chao Li  Associate Professor 

Office :Ocean Building 606 Tel:021-65982208
Email: cli@tongji.edu.cn Homepage:http://ocean.tongji.edu.cn/space/lichao/
Mailing Address:School of Ocean and Earth Science, Tongji University, 1239 Siping Road, Shanghai 200092, China

 

  1. Education

2009.09-2010.09: University of British Columbia, Ocean Science, visiting Ph.D Student

2008.09-2011.12: Tongji University, Marine Geology, Ph.D

2006.10-2007.09: University of Bremen, Geosciences, Sino-German Master Program

2005.09-2008.09: Ocean University of China, Geochemistry, M.Sc.

2001.09-2005.09: Ocean University of China, Environmental Science, B.Sc

  1. Employment

2018.01-present: Tongji University, Associate Professor

2016.06-2017.12: Tongji University, Assistant Research Fellow

2015.06-2015.11: Radiogenic Isotope Facility (RIF) at the University of Queensland, Visiting Scholar

2014.04-2016.06: Tongji University, Post doctoral research

2012.01-2014. 4: Tongji University, Post doctoral research

  1. Research interests
    1. Tracing the sediment source-to-sink processes using various geochemical proxies, like U and Li isotopes. In particular, constraining the time scale of the sediment source-to-sink process based on sediment comminution age. How fast are sediments produced, stored and exported? Study of small and large catchments under various climates (temperate East Asia, tropical Southeast Asia).
    2. Environmental evolution of East China in different time scales, from Late Quaternary to Anthropocene.
  2. Projects
  3. “Investigation of sediment residence time in Red River catchment and its comparison with the Changjiang river sediment”, the Research Fund of State Key Laboratory of Marine Geology (Tongji University), No. MG20180204, CNY 400,000, 2018.01-2019.12 (PI)
  4. “Improvement of comminution age method application in calculating sediment transport time using U-series isotopes”, the Research Fund of State Key Laboratory of Marine Geology (Tongji University), No. MG20170401, CNY 100,000, 2017.01-2017.12 (PI)
  5. “Time scales of sediment ‘source to sink’ processes for marine sediments archives in south Yellow Sea”, the Fundamental Research Funds for the Central Universities, 10120172016KJ007, CNY 50,000, 2017.1~2018.12 (PI)
  6. “Time scales of sediment ‘source to sink’ processes for typical riverine and marine sediments in East China”, National Nature Science Foundation of China, No. 41676035, CNY 640,000, 2017.1~2020.12.
  7. “Assessment of comminution age method: Chemical leaching and parameters calculation”, China Post-doctor Science Foundation, No. 2015M570384, CNY 80,000, 2012.7~2014.7 (PI)
  8. “Time scale of the sediment source to sink process – estimation of sediment transport time for the Changjiang and Taiwan rivers based on 234U/238U”, National Nature Science Foundation of China, No. 41306040, CNY 270,000, 2014.1~2016.12 (PI)
  9. “The chemical species of particulate iron in sediments from the hypoxia zone of the Changjiang estuary and its environmental implication”, China Post-doctor Science Foundation, No. 2012M511129, CNY 50,000, 2012.7~2014.7 (PI)
  10. “Distribution of water H/O istotopes in middle-lower Changjiang reaches and its environmental significance”, Foundation of Key Laboratory of Yangtze River Water Environment, Ministry of Education, (Tongji University), No. YRWEF201305, CNY 30,000, 2013.5~2015.5 (PI)
  11. Publications
  12. Yao, J. H., Xiao, L. X., Gou, M. M., Li, C.*, Lian, E. G., Yang, S. Y., 2017. Pacific Decadal Oscillation Impact on East China Precipitation and its Imprint in New Geological Documents, Science China: Earth Sciences, doi: 10.1360/N072016-00380.
  13. Deng, K., Yang, S.*, Li, C., Su, N., Bi, L., Chang, Y.-P., Chang, S.-C., 2016. Detrital zircon geochronology of river sands from Taiwan: implications for sedimentary provenance of Taiwan and its source link with the east China mainland. Earth-Science Reviews, 164: 31-47.
  14. Shao, H., Yang, S.*, Cai, F., Li, C., Liang, J., Li, Q., Hyun, S., Kao, S.-J., Dou, Y., Hu, B., Dong, G., Wang, F., 2016. Sources and burial of organic carbon in the middle Okinawa Trough during late Quaternary paleoenvironmental change. Deep Sea Research Part I: 118: 46-56.
  15. Li, C., Yang, S. *, Lian, E., Wang, Q., Fan, D., Huang, X., 2016. Chemical speciation of iron in sediments from the Changjiang Estuary and East China Sea: iron cycle and paleoenvironmental implications. Quaternary International. 452: 116-128.
  16. Lian, E., Yang, S.*, Wu, H., Yang, C., Li, C., Liu, J.T., 2016. Kuroshio subsurface water feeds the wintertime Taiwan Warm Current on the inner East China Sea shelf. Journal of Geophysical Research: Oceans, 121: 4790-4803.
  17. Li, C.*, Yang, S.*, Zhao, J.X., Dosseto, A., Bi, L., Clark, T. R., 2016. The time scale of river sediment source-to-sink processes in East Asia, Chemical Geology, 446: 138-146.
  18. Li, C., Francois, R.*, Yang, S. Y.*, Barling, J., Darfeuil, S., Weis, D., 2016. Climate-related changes in the transport time of lithogenic sediments to the Okinawa Trough (East China Sea). Chemical Geology, 445: 199-207.
  19. Han, Z.*, Liu, H., Li, C., Li, X., Wang, C., Sun, Y., Liu, B., Zhang, A., 2016. Geochemistry and provenances of core sediments from the Shikoku Basin. Geological Journal, 51: 60-76.
  20. Deng, K., Yang, S.*, Lian, E., Li, C., Yang, C., Wei, H., 2016. Three Gorges Dam alters the Changjiang (Yangtze) river water cycle in the dry seasons: Evidence from H-O isotopes. Science of the Total Environment, 562: 89-97.
  21. Dou, Y., Yang, S.*, Shi, X., Clift, P.D., Liu, S., Liu, J., Li, C., Bi, L., Zhao, Y., 2016. Provenance weathering and erosion records in southern Okinawa Trough sediments since 28 ka: Geochemical and Sr–Nd–Pb isotopic evidences. Chemical Geology, 425: 93-109.
  22. Li, C., Yang, S.*, Lian, E., Yang, C., Deng, K., Liu, Z., 2016. Damming effect on the Changjiang (Yangtze River) river water cycle based on stable hydrogen and oxygen isotopic records. Journal of Geochemical Exploration, 165: 125-133.
  23. Bi, L., Yang, S.*, Li, C., Guo, Y., Wang, Q., Liu, J.T., Yin, P., 2015. Geochemistry of river-borne clays entering the East China Sea indicates two contrasting types of weathering and sediment transport processes. Geochemistry, Geophysics, Geosystems, 16: 3034-3052.
  24. Dou, Y., Yang, S.*, Li, C., Shi, X., Liu, J., Bi, L., 2015. Deepwater redox changes in the southern Okinawa Trough since the last glacial maximum. Progress in Oceanography, 135: 77-90.
  25. Yang, S.*, Bi, L., Li, C., Wang, Z., Dou, Y., 2015. Major sinks of the Changjiang (Yangtze River)-derived sediments in the East China Sea during the late Quaternary. The Geological Society of London (a special publication on River-Dominated Shelf Sediments of East Asian Seas). doi:10.1144/SP429.6
  26. Li, C., Yang, S., Lian, E., Bi, L., Zhang, Z., 2015. A review of comminution age method and its potential application in the East China Sea to constrain the time scale of sediment source-to-sink process. Journal of Ocean University of China, 14: 399-406.
  27. Li, C., Yang, S.Y.*, Zhang, W.G., 2012. Magnetic properties of sediments from major rivers, aeolian dust, loess soil and desert in China. Journal of Asian Earth Science. 45: 190-200.
  28. Shao, J., Yang, S.*, Li, C., 2012. Chemical indices (CIA and WIP) as proxies for integrated chemical weathering in China: Inferences from analysis of fluvial sediments. Sedimentary Geology, 265-266: 110-120.
  29. Li, C., Yang, S.Y.*, 2010. Is Chemical Index of Alteration (CIA) a reliable proxy for chemical weathering in global drainage basins? American Journal of Science, 310: 111-127.

Publications in Chinese with English abstract

1.Chenyu Wang, Ergang Lian, Chengfan Yang, Kai Deng, Chao Li*, Shouye Yang, Ping Yin, River water cycle in small rivers and estuarine regions from Zhejiang and Fujian Provinces: evidences from Hydrogen and Oxygen Isotopes, Marine geology and quaternary geology. Accepted. [王晨羽,连尔刚,杨承帆,邓凯,李超*,杨守业,印萍,2017. 浙闽中小河流及其河口地区水循环的氢氧同位素示踪,海洋地质与第四纪地质,已接收.]

2.Li, C.*, Yang, S. Y., Bi, L., Zhao, Y., 2015. Time Scale of Sediment “Source to Sink” Process-Sediment Transport Time Calculation Based on U-series Isotopes, Marine Geology Frontiers, 31(2), 26-31. [李超*, 杨守业, 毕磊, 赵云, 2015. “从源到汇”的时间尺度——根据U系同位素计算海洋沉积物的搬运时间. 海洋地质前言, 31(2): 26-31.]

3.Li, C.*, Shu, J.S., Xu, F., Yang, S.Y., 2013. The analytical development of low-temperature particulate Fe speciation, Earth Science-Journal of China University of Geosciences, 3, 454-460. [李超*, 舒劲松, 许斐, 杨守业, 2013. 沉积物中铁的化学相态分析进展. 地球科学(中国地质大学学报), 3(38): 454-460.]

4.Li, C.*, Yang, S.Y., 2012, Hematite and Goethite distribution in the Yangtze River sediment by using Diffused Reflectance Spectroscopy, Earth Science-Journal of China University of Geosciences, Suppl. 7, 11-19. [李超*, 杨守业, 2012. 长江沉积物中赤铁矿和针铁矿的漫反射光谱分析. 地球科学(中国地质大学学报), 37 (S1): 11-19.]

  1. Teaching

N/A

  1. Students

current students :

Master:Chenyu Wang (co-supervised with Prof. Shouye Yang)

Doctor:None

former students :

Master:None

Doctor:None

  1. Awards

1.Excellent post doctoral research fellow, 2016

2.Excellent PhD thesis, awarded by Tongji University, 2012

3.GUANGHUA scholarship of Tongji University, awarded by Tongji University, 2010.

4.Scholarship for Excellent Doctoral Student, awarded by Ministry of Education of the P. R. China, 2010.

5.Distinguished PhD student Award, Tongji University, 2009.

  1. Serving on academic journal

N/A

  1. Serving on academic organization

N/A

 

更多信息请访问李超个人主页: http://ocean.tongji.edu.cn/space/lichao/

 

————————————————————————————(Last Modified on 2018-03-21)