中国科学院青藏高原研究所导师教师师资介绍简介-李潮流

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姓名:
李潮流性别:
男
学历:
博士专家类别:
副研究员　
电话:
010-8409 7050 传真:
010-8409 7092
电子邮件:
lichaoliu@itpcas.ac.cn 个人主页:

通讯地址:
北京市朝阳区林萃路16号院3号楼100101

简历：
主要从事青藏高原大气和雪冰中碳质组分的沉降、吸光特征和碳同位素组成的研究；利用碳同位素组成对全球变化背景下青藏高原冻土释碳及其水体碳循环关系的研究；局地排放粉尘和污染物对青藏高原大气化学的可能影响及青藏高原各种介质的元素地球化学的研究。
学习工作经历：
2010年12月-　　　　　中国科学院青藏高原研究所副研
2007年7月-2010年12月中国科学院青藏高原研究所助研
2004年9月-2007年7月　中国科学院青藏高原研究所博士
2001年9月-2004年7月　甘肃农业大学草业工程学院硕士
1997年9月-2 001年7月　甘肃农业大学草业工程学院学士
出国经历：
2012年6月-　　　　　　美国耶鲁大学森林环境学院交流访问
2009年1月-2010年1月加拿大曼尼托巴大学环境系交流访问

研究方向：
环境化学

职务：

社会任职：

承担项目：

获奖及荣誉：

代表论著：
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., Sillanp??, M., 2017. Reevaluating black carbon in the Himalayas and the Tibetan Plateau: concentrations and deposition. Atmospheric Chemistry and Physics, in press.
Li, C*., Yan, F., Kang, S., Chen, P., Hu, Z., Han, X., Zhang, G., Gao, S., Qu, B. and Sillanp??, 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.
Li, C*., Yan, F., Kang, S., Chen, P., Hu, Z., Gao, S., Qu, B. and Sillanp??, M. (2016) Light absorption characteristics of carbonaceous aerosols in two remote stations of the southern fringe of the Tibetan Plateau, China. Atmospheric Environment 143, 79-85.
Li, C*., Chen, P., Kang, S., Yan, F., Hu, Z., Qu, B., Sillanp??, 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.
Li, C*., Yan, F., Kang, S., Chen, P., Qu, B., Hu, Z., Sillanp??, 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.
Li, C*., Chen, P., Kang, S*., Yan, F., Li, X., Qu, B., Sillanp??, M., 2016. Carbonaceous matter deposition in the high glacial regions of the Tibetan Plateau. Atmospheric Environment 141, 203-208.
Li, C., Bosch, C., Kang, S*., Andersson, A., Chen, P., Zhang, Q., Cong, Z., Chen, B., Qin, D., Gustafsson, ?*., 2016. Sources of Black Carbon to the Himalayan-Tibetan Plateau glaciers. Nature Communications 7, 12574.
Li, C., Kang, S*., Chen, P., Zhang, Q., Mi, J., Gao, S., Sillanp??, M., 2014. Geothermal spring causes arsenic contamination in river waters of the southern Tibetan Plateau, China. Environmental Earth Sciences 71, 4143-4148.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
Li, C., 2006. Progress in Studies on the Younger Dryas Event and Its Trigger Mechanisms (in Chinese). Journal of Glaciology and Geocryology 28, 568-576.
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.
Qu, B*., Sillanp??, 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.
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.
Chen, P., Kang, S., Bai, J., Sillanp??, 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.
Chen, P., Kang, S., Li, C*., Rupakheti, M., Yan, F., Li, Q., Ji, Z., Zhang, Q., Luo, W., Sillanp??, 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.