教育经历 2001 - 2004：在中国海洋大学海洋化学系攻读博士学位。 1998 - 2001：于成都理工大学地球科学学院取得硕士学位。 1994 - 1998：毕业于山东轻工业学院材料系，获得学士学位。 工作经历 2004 - 至今：在中国海洋大学任职，历经讲师、副教授，晋升为教授。 2013 - 2014：以访问学者身份前往美国华盛顿大学海洋学院。

海洋有机地球化学

美国地球物理学会 (AGU)会员，Geochemical Society会员。SCI期刊Deep Sea Research, Quaternary International, Marine Chemistry, Journal of Asian Earth Sciences, Acta Oceanologica Sinica,中国科学等审稿人。

近年来一直从事西太平洋，边缘海及河口区的有机地球化学研究，对运用有机地球化学方法来研究现代海洋过程及第四纪海洋生态及环境的演变有较多的积累。在海洋有机地球化学领域发表文章50余篇。近期及代表性论文如下： 1. Wang Z., Zhou, Y., Xing, L*., Bao, R*., Zhang, J., 2022. Seasonal Variation of Long-Chain Alkyl Diols Proxies in Suspended Particulate Matter of the Changjiang River Estuary. Journal of Geophysical Research: Biogeosciences 127, e2022JG007049. 2. Song, C., Dang, T., Zhang, T., Ge, T., Xiang, R., Xing, L*., Bao, R*., Zhou, Y., Xiao, R., Wu, B., 2022. Evolutions of upwelling and terrestrial organic matter input in the inner shelf of the East China Sea in the last millennium revealed by long-chain alkyl diols proxies. Front Mar Sci 9:1027561. doi: 10.3389/fmars.2022.1027561 3. Xiao, R., Wu, X., Du, J., Deng, B., Xing, L*., 2020. Impacts of anthropogenic forcing on source variability of sedimentary organic matter in the Yellow River estuary over the past 60 years. Marine Pollution Bulletin, 151, 110818. 4. Zhou, Y., Wu, X., Xiang, R., Xing, L*., 2020. Decadal to interdecadal variability in TEX86 temperature on the inner shelf of the East China Sea over the last 3.7 kyr. Organic Geochemistry 142, 104000. 5. Wu Xiuning, Xing Lei*, Jiang Yiqing, Zhang Xiaodong, Xiang Rong, and Zhou Liping., 2019. High-resolution reconstruction of sedimentary organic matter variability during the Holocene in the mud area of the Yellow Sea using multiple organic geochemical proxies. Quaternary International, 503, 178-188 6. Wu X., Xing, L*., Zhang T., Xiang R., 2018. Mid–late Holocene changes in sedimentary organic matter on the inner shelf of the East China Sea. Journal of Asian Earth Sciences, 154, 248-254 7. Cao, Y., Xing, L*., Zhang, T., Liao, W.-H., 2017. Multi-proxy evidence for decreased terrestrial contribution to sedimentary organic matter in coastal areas of the East China Sea during the past 100 years. Science of the Total Environment, 599–600, 1895-1902. 8. Xing, L., Hou, D., Wang, X., Li, L., Zhao, M., 2016. Assessment of the sources of sedimentary organic matter in the Bohai Sea and the northern Yellow Sea using biomarker proxies, Estuarine, Coastal and Shelf Science,176: 67-75. doi: 10.1016/j.ecss.2016.04.009. 9. Xing L., Zhao Meixun, Zhang Ting, Yu Meng, Duan Shanshan, Zhang Rongping, HuhChih-An, Liao Wen-Hsuan, Feng Xuwen, 2016. Ecosystem responses to anthropogenic and natural forcing over the last 100 years in the coastal areas of the East China Sea. The Holocene, 26: 669-677. doi: 10.1177/0959683615618248. 10. Xing, L., Sachs, J.P., Gao, W., Tao, S., Zhao, X., Li, L., Liu, Y., Zhao, M., 2015. TEX86 paleothermometer as an indication of bottom water temperature in the Yellow Sea. Organic Geochemistry, 86, 19-31. 11. Xing, L., Zhao, M., Gao, W., Wang, F., Zhang, H., Li, L., Liu, J., Liu, Y., 2014. Multiple proxy estimates of source and spatial variation in organic matter in surface sediments from the southern Yellow Sea. Organic Geochemistry, 76, 72-81 12. Xing, L., Zhang, R., Liu, Y., Zhao, X., Liu, S., Shi, X., Zhao, M., 2011. Biomarker records of phytoplankton productivity and community structure changes in the Japan Sea over the last 166 kyr. Quaternary Science Reviews, 30, 2666-2675.