(*Corresponding author; last updated 2016-11-28)

17) 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. []

16) 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: Oceanographic Research Papers. In press. []

15) Li, C., Yang*, S. Y., Lian, E., Wang, Q., Fan, D. D., Huang, X. T., 2016. Chemical speciation of iron in sediments from the Changjiang Estuary and East China Sea: iron cycle and paleoenvironmental implications. Quaternary International, doi:10.1016/j.quaint.2016.07.014. In press. [download]

14) 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. []

13) 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. []

12) 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. [download]

11) 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. [download]

10) 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. [download]

9) 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. [download]

8) 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. [download]

7) 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. [download]

6) 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. [download]

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. [download]

4) 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. [download]

3) 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. [download]

2) 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. [download]

1) 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. [download]

Publications in Chinese with English abstract

10) Yao, J. H., Xiao, L. X., Gou, M. M., Li, C.*, Lian, E. G., Yang, S. Y., 2016.  The Pacific Decadal Oscillation (PDO) Impact on East Asia Climate and its Imprint in Geological Documents, under review. [姚嘉惠, 肖林翔, 苟萌萌, 李超*, 连尔刚, 杨守业, 2016. 北太平洋年代际振荡(PDO)对东亚地区气候的影响及在地质中的记录. 审稿中.]

9) Deng, K., Yang, S.Y.*, Wang, Z.B., Li, C., Bi, L., Chang Y.P., Liu, J.T., 2016. Detrital Heavy Mineral Assemblages in the River Sediments from Taiwan and its implications for sediment provenance, Acta Sedimentologica Sinica, 34(3): 531-542. [邓凯, 杨守业*, 王中波, 李超, 毕磊, 张永斌, 刘祖乾,  2016. 台湾山溪性小河流的碎屑重矿物组成及其示踪意义,  沉积学报, 34(3): 531-542] [download]

8) 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.][download]

7) Yang, C.F.*, Yin, G., Lian, E.G., Li, C., Yang, S.Y., 2014. A quantitative estimation of urban water body evaporation using hydrogen and oxygen isotopes, Shanghai Land & Resources, 35(3): 82-85. [杨承帆*, 尹观, 连尔刚, 李超, 杨守业. 2014. 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(3): 82-85.][download]

6) Yang, S.Y.*, Li, C., Wang, Z.B., Wang, X.D., Shu, J.S., 2013. Heterogenety of geochemical compositions of the Changjiang River sediments and provenance indication. Quaternary Research, 33(4): 645-655. [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(4): 645-655.][download]

5) 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.][download]

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.][download]

3) Xu, F., Yang, S.Y.*, Zhan, W., Li, C., Qian, P., 2011. Influence of the impoundment of the Three Gorges Reservoir on the flux and isotopic
composition of particulate organic carbon in the lower Changjiang mainstream. Geochimica, 40(2): 199-208. [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][download]

2) Wang, Z.B.*, Yang, S.Y., Li, R.H., Zhang, Z.X., Li, J., Bai, F.L., Li, C., 2009. Detrital mineral composition of the sediments from Huanghe and its hydrodynamic environmental constraints, Marine Geology and Quaternary Geology, 30(4): 73-85. [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. 73-85][download]

1) Han, Z.Z.*, Li, C., Lai, Z.Q., 2008. Geochemical features and origin of the pumice from middle and south Okinawa Trough, Transactions of Oceanology and Limnology, 3: 61-66. [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.][download]

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