李潮流 - 中国科学院西北生态环境资源研究院 -

个人简介

教育 1997年9月-2001年7月　甘肃农业大学草业工程学院学士草业科学 2001年9月-2004年7月　甘肃农业大学草业工程学院硕士草业科学 2004年9月-2007年7月　中国科学院青藏高原研究所博士自然地理学工作 2007年7月-2010年12月　中国科学院青藏高原研究所　助理研究员大气化学专业 2011年6月-2020年6月　中国科学院青藏高原研究所　副研究员大气化学专业 2020年6月-　　　　　　中国科学院西北生态环境资源研究院研究员大气环境 2009年1月-2010年1月　加拿大曼尼托巴大学　　　访问学者 2012年6月-2013年6月　美国耶鲁大学　　　　　　访问学者承担科研项目情况 1. 青藏高原典型背景地区黑碳沉降特征的研究，2020.1-2023.12，主持 2. 青藏高原纳木错地区碳质气溶胶吸光性和碳同位素组成的研究，2017.1-2020.12，主持 3. “西部之光”项目，2020-2023，主持 4. 人类活动的环境影响与调控项目/大气污染物传输及其环境影响课题/大气污染物时空分布与溯源子课题/大气污染物现代组成和本底特征专题，2018-2022，参与 5. 跨境污染物调查与环境安全专题/人类活动与生存环境安全任务，2019-2022，参与

研究领域

青藏高原及其周边大气和雪冰碳质组分的来源，光学特征和同位素组成

近期论文

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1. Li C*, Han X, Kang S, Yan F, Chen P, Hu Z, Yang J, Ciren D, Gao S, Sillanpää M. 2019. Heavy near-surface PM2. 5 pollution in Lhasa, China during a relatively static winter period. Chemosphere 214:314-318. 2. Li C*, Kang S, Yan F. 2018. Importance of Local Black Carbon Emissions to the Fate of Glaciers of the Third Pole. Environmental Science & Technology 52:14027-14028. 3. Li, C*., Chen, P., Kang, S*., Yan, F., Tripathee, L., Wu, G., Qu, B., Sillanpää, M., Yang, D., Dittmar, T., Stubbins, A*., Peter, A., 2018. Fossil fuel combustion emission from South Asia influences precipitation dissolved organic carbon reaching the remote Tibetan Plateau: isotopic and Molecular evidence. Journal of Geophysical Research: Atmospheres. 123 (art. D028181):6248-6258. 4. Li, C*., Yan, F., Kang, S., Chen, P., Hu, Z., Han, X., Zhang, G., Hong, Y., Zhejing, z., Jiwei, L., Bing, C., Gao, S., Qu, B., Sillanpää, M., 2017. Reevaluating black carbon in the Himalayas and the Tibetan Plateau: concentrations and deposition. Atmospheric Chemistry and Physics, 17, 11899-11912. 5. Li, C*., Yan, F., Kang, S., Chen, P., Hu, Z., Han, X., Zhang, G., Gao, S., Qu, B. and Sillanpää, M. (2017) Deposition and light absorption characteristics of precipitation dissolved organic carbon (DOC) at three remote stations in the Himalayas and Tibetan Plateau, China. Science of The Total Environment 605, 1039-1046. 6. Li, C., Bosch, C., Kang, S*., Andersson, A., Chen, P., Zhang, Q., Cong, Z., Chen, B., Qin, D., Gustafsson, Ö*., 2016. Sources of Black Carbon to the Himalayan-Tibetan Plateau glaciers. Nature Communications, 7, 12574. 7. Li, C*., Chen, P., Kang, S., Yan, F., Hu, Z., Qu, B., Sillanpää, M., 2016. Concentrations and light absorption characteristics of carbonaceous aerosol in PM2.5 and PM10 of Lhasa city, the Tibetan Plateau. Atmospheric Environment 127, 340-346. 8. Li, C*., Yan, F., Kang, S., Chen, P., Qu, B., Hu, Z., Sillanpää, M., 2016. Concentration, sources and flux of dissolved organic carbon of precipitation at Lhasa city, the Tibetan Plateau. Environmental Science and Pollution Research 3, 12915-12921. 9. Li, C*., Chen, P., Kang, S*., Yan, F., Li, X., Qu, B., Sillanpää, M., 2016. Carbonaceous matter deposition in the high glacial regions of the Tibetan Plateau. Atmospheric Environment 141, 203-208. 10. Li, C*., Yan, F., Kang, S., Chen, P., Hu, Z., Gao, S., Qu, B., Sillanpää, M., 2016. Light absorption characteristics of carbonaceous aerosols in two remote stations of the southern fringe of the Tibetan Plateau, China. Atmospheric Environment, 79-85. 11. Li, C., Kang, S*., Chen, P., Zhang, Q., Mi, J., Gao, S., Sillanpää, M., 2014. Geothermal spring causes arsenic contamination in river waters of the southern Tibetan Plateau, China. Environmental Earth Sciences 71, 4143-4148. 12. Li, C., Kang, S*., Chen, P., Zhang, Q., Fang, G.C., 2012. Characterizations of particle-bound trace metals and polycyclic aromatic hydrocarbons (PAHs) within Tibetan tents of south Tibetan Plateau, China. Environmental Science and Pollution Research, 1-9. 13. Li, C., Kang, S*., Chen, P., Zhang, Q., Guo, J., Mi, J., Basang, P., Luosang, Q., Smith, K.R., 2012. Personal PM 2.5 and indoor CO in nomadic tents using open and chimney biomass stoves on the Tibetan Plateau. Atmospheric Environment 59, 207-213. 14. Li, C., Kang, S*., Zhang, Q., Gao, S., 2012. Geochemical evidence on the source regions of Tibetan Plateau dusts during non-monsoon period in 2008/09. Atmospheric Environment 59, 382-388. 15. Li, C., Kang, S*., Zhang, Q., Sharma, C.M., 2012. Effectiveness of rare earth elements constrain on different materials: a case study in central Asia. Environmental Earth Sciences 67, 1415-1421. 16. Li, C., Kang, S*., Zhang, Q., Gao, S., Sharma, C.M., 2010. Heavy metals in sediments of the Yarlung Tsangbo and its connection with the arsenic problem in the Ganges–Brahmaputra Basin. Environmental Geochemistry and Health 33, 23-32. 17. Li, C., Kang, S*., Zhang, Q., 2009. Elemental composition of Tibetan Plateau top soils and its effect on evaluating atmospheric pollution transport. Environmental Pollution 157, 2261-2265. 18. Li, C., Kang, S*., Zhang, Q., Wang, F., 2009. Rare earth elements in the surface sediments of the Yarlung Tsangbo (Upper Brahmaputra River) sediments, southern Tibetan Plateau. Quaternary International 208, 151-157. 19. Li, C., Kang, S*., Wang, X., Ajmone-Marsan, F., Zhang, Q., 2008. Heavy metals and rare earth elements (REEs) in soil from the Nam Co Basin, Tibetan Plateau. Environmental Geology 53, 1433-1440. 20. Li, C., Kang, S*., Cong, Z., 2007. Elemental composition of aerosols collected in the glacier area on Nyainqentanglha Range, Tibetan Plateau, during summer monsoon season. Chinese Science Bulletin 52, 3436-3442. 21. Li, C., Kang, S*., Zhang, Q., Kaspari, S., 2007. Major ionic composition of precipitation in the Nam Co region, Central Tibetan Plateau. Atmospheric Research 85, 351-360. 22. Li, C., Kang, S., 2006. Review of the studies on climate change since the last inter-glacial period on the Tibetan Plateau. Journal of Geographical Sciences 16, 337-345. 23. Chen, M*., Zeng, C., Zhang, F., Kang, S. and Li, C*., 2020. Characteristics of dissolved organic matter from a trans-boundary Himalayan watershed: relationships with land use, elevation, and hydrology. ACS Earth and Space Chemistry. 24. Gautam, S., Yan, F., Kang, S., Han, X., Neupane, B., Chen, P., Hu, Z., Sillanpää, M. and Li, C*., 2020. Black carbon in surface soil of the Himalayas and Tibetan Plateau and its contribution to total black carbon deposition at glacial region. Environmental Science and Pollution Research, 27(3): 2670-2676. 25. Hu, Z., Kang, S*., He, X., Yan, F., Zhang, Y., Chen, P., Li, X., Gao, S. and Li, C*., 2020. Carbonaceous matter in glacier at the headwaters of the Yangtze River: Concentration, sources and fractionation during the melting process. Journal of Environmental Sciences, 87: 389-397. 26. Yan, F., Wang, P., Kang, S., Chen, P., Hu, Z., Han, X., Sillanpää, M. and Li, C*., 2020. High particulate carbon deposition in Lhasa—a typical city in the Himalayan–Tibetan Plateau—due to local contributions. Chemosphere: 125843. 27. Yan, F., He, C., Kang, S., Chen, P., Hu, Z., Han X., Gautam S., Yan, C., Zheng, M., Sillanpää, M., Raymond PA., Li, C*. Deposition of organic and black carbon: direct measurements at three remote stations in the Himalayas and Tibetan Plateau. Journal of Geophysical Research: Atmospheres. 2019. 28. Chen, M*., Li, C*. Zeng, F. Zhang, P. A. Raymond, and J. Hur*, Immobilization of relic anthropogenic dissolved organic matter from alpine rivers in the Himalayan-Tibetan Plateau in winter, Water Research, 2019, 160, 97-106. 29. Yan F, Sillanpää M, Kang S*, Aho KS, Qu B, Wei D, Li X, Li C*, Raymond PA. Lakes on the Tibetan Plateau as conduits of greenhouse gases to the atmosphere. Journal of Geophysical Research: Biogeosciences. 2018. 30. Yan, F., Kang, S., Li, C*., Zhang, Y., Qin, X., Li, Y., Zhang, X., Hu, Z., Chen, P., Li, X., Qu, B., Sillanpää, M., Concentration, sources and light absorption characteristics of dissolved organic carbon on a medium-sized valley glacier, northern Tibetan Plateau. The Cryosphere 2016. 10, 2611-2621. 31. Hu, Z., Kang, S*., Yan, F., Zhang, Y., Li, Y., Chen, P., Qin, X., Wang, K., Gao, S., Li, C*., 2018. Dissolved organic carbon fractionation accelerates glacier-melting: A case study in the northern Tibetan Plateau. Science of The Total Environment 627, 579-585. 32. Hu, Z., Kang, S., Li, C*., Yan, F., Chen, P., Gao, S., Wang, Z., Zhang, Y. and Sillanpaa, M. (2017) Light absorption of biomass burning and vehicle emission-sourced carbonaceous aerosols of the Tibetan Plateau. Environmental Science and Pollution Research 24, 15369-15378. 33. Qu, B*., Sillanpää, M., Kang, S., Yan, F., Li, Z., Zhang, H. and Li, C*. (2017) Export of dissolved carbonaceous and nitrogenous substances in rivers of the “Water Tower of Asia”. Journal of Environmental Sciences. 34. Qu, B., Sillanpaa, M., Li, C*., Kang, S., Stubbins, A., Yan, F., Aho, K.S., Zhou, F. and Raymond, P.A. (2017) Aged dissolved organic carbon exported from rivers of the Tibetan Plateau. Plos One 12. 35. Qu B*, Aho KS, Li C*, Kang S, Sillanpää M, Yan F and Raymond, P.A. Greenhouse gases emissions in rivers of the Tibetan Plateau. Scientific reports. 2017;7(1):16573. 36. Chen, P., Kang, S., Bai, J., Sillanpää, M., Li, C*., 2015. Yak dung combustion aerosols in the Tibetan Plateau: Chemical characteristics and influence on the local atmospheric environment. Atmospheric Research 156, 58-66. 37. Chen, P., Kang, S., Li, C*., Rupakheti, M., Yan, F., Li, Q., Ji, Z., Zhang, Q., Luo, W., Sillanpää, M., 2015. Characteristics and sources of polycyclic aromatic hydrocarbons in atmospheric aerosols in the Kathmandu Valley, Nepal. Science of the Total Environment 538, 86-92.