|Atmospheric microplastics: A review on current status and perspectives|
Y Zhang, S Kang, S Allen, D Allen, T Gao, M Sillanpää
Earth-Science Reviews 203, 103118, 2020
|Light‐absorbing impurities enhance glacier albedo reduction in the southeastern Tibetan Plateau|
Y Zhang, S Kang, Z Cong, J Schmale, M Sprenger, C Li, W Yang, T Gao, ...
Journal of Geophysical Research: Atmospheres 122 (13), 6915-6933, 2017
|Hydrological system analysis and modelling of the Nam Co basin in Tibet|
P Krause, S Biskop, J Helmschrot, WA Flügel, S Kang, T Gao
Advances in Geosciences 27, 29-36, 2010
|Black carbon and mineral dust in snow cover on the Tibetan Plateau|
Y Zhang, S Kang, M Sprenger, Z Cong, T Gao, C Li, S Tao, X Li, X Zhong, ...
The Cryosphere 12 (2), 413-431, 2018
|Early onset of rainy season suppresses glacier melt: a case study on Zhadang glacier, Tibetan Plateau|
S Kang, F Chen, T Gao, Y Zhang, W Yang, W Yu, T Yao
Journal of glaciology 55 (192), 755-758, 2009
|Importance of atmospheric transport for microplastics deposited in remote areas|
Y Zhang, T Gao, S Kang, M Sillanpää
Environmental Pollution 254, 112953, 2019
|Response of Zhadang Glacier runoff in Nam Co Basin, Tibet, to changes in air temperature and precipitation form|
SQ Zhou, SC Kang, TG Gao, GS Zhang
Chinese Science Bulletin 55 (20), 2103-2110, 2010
|Different region climate regimes and topography affect the changes in area and mass balance of glaciers on the north and south slopes of the same glacierized massif (the West …|
W Yu, T Yao, S Kang, J Pu, W Yang, T Gao, H Zhao, H Zhou, S Li, ...
Journal of Hydrology 495, 64-73, 2013
|Thaw depth determines dissolved organic carbon concentration and biodegradability on the northern Qinghai‐Tibetan Plateau|
CC Mu, BW Abbott, XD Wu, Q Zhao, HJ Wang, H Su, SF Wang, TG Gao, ...
Geophysical Research Letters 44 (18), 9389-9399, 2017
|Characteristics of black carbon in snow from Laohugou No. 12 glacier on the northern Tibetan Plateau|
Y Zhang, S Kang, C Li, T Gao, Z Cong, M Sprenger, Y Liu, X Li, J Guo, ...
Science of the Total Environment 607, 1237-1249, 2017
|Reduced winter runoff in a mountainous permafrost region in the northern Tibetan Plateau|
T Gao, T Zhang, L Cao, S Kang, M Sillanpää
Cold Regions Science and Technology 126, 36-43, 2016
|A test of J2000 model in a glacierized catchment in the central Tibetan Plateau|
T Gao, S Kang, P Krause, L Cuo, S Nepal
Environmental Earth Sciences 65 (6), 1651-1659, 2012
|Dissolved organic carbon in snow cover of the Chinese Altai Mountains, Central Asia: Concentrations, sources and light-absorption properties|
Y Zhang, S Kang, T Gao, J Schmale, Y Liu, W Zhang, J Guo, W Du, Z Hu, ...
Science of the total environment 647, 1385-1397, 2019
|Chemical records in snowpits from high altitude glaciers in the Tibetan Plateau and its surroundings|
Y Zhang, S Kang, Q Zhang, T Gao, J Guo, B Grigholm, J Huang, ...
PloS one 11 (5), e0155232, 2016
|Simulation and analysis of glacier runoff and mass balance in the Nam Co basin, southern Tibetan Plateau|
G Tanguang, K Shichang, L Cuo, Z Tingjun, Z Guoshuai, Z Yulan, ...
Journal of Glaciology 61 (227), 447-460, 2015
|The characteristics of the positive degree-day factors of the Zhadang glacier on the Nyainqentanglha range of Tibetan Plateau, and its application|
Q Wu, S Kang, T Gao, Y Zhang
J. Glaciol. Geocryol 32 (5), 891-897, 2010
|Riverine dissolved organic carbon and its optical properties in a permafrost region of the Upper Heihe River basin in the Northern Tibetan Plateau|
T Gao, S Kang, R Chen, T Zhang, T Zhang, C Han, L Tripathee, ...
Science of the total environment 686, 370-381, 2019
高坛光， 康世昌， 张强弓， 周石， 徐彦伟
环境科学 29 (11), 3009-3016, 2008
|Major ionic features and their sources in the Nam Co Basin over the Tibetan Plateau|
TG Gao, SC Kang, QG Zhang, SQ Zhou, YW Xu
Huan jing ke xue= Huanjing kexue 29 (11), 3009-3016, 2008
|Influence of microtopography on active layer thaw depths in Qilian Mountain, northeastern Tibetan Plateau|
T Gao, T Zhang, X Wan, S Kang, M Sillanpää, Y Zheng, L Cao
Environmental Earth Sciences 75 (5), 382, 2016