|Landsat-8: Science and product vision for terrestrial global change research|
DP Roy, MA Wulder, TR Loveland, CE Woodcock, RG Allen, ...
Remote sensing of Environment 145, 154-172, 2014
|Disappearing arctic lakes|
LC Smith, Y Sheng, GM MacDonald, LD Hinzman
Science 308 (5727), 1429-1429, 2005
|Siberian peatlands a net carbon sink and global methane source since the early Holocene|
LC Smith, GM MacDonald, AA Velichko, DW Beilman, OK Borisova, ...
Science 303 (5656), 353-356, 2004
|Current status of Landsat program, science, and applications|
MA Wulder, TR Loveland, DP Roy, CJ Crawford, JG Masek, ...
Remote sensing of environment 225, 127-147, 2019
|Rapid early development of circumarctic peatlands and atmospheric CH4 and CO2 variations|
GM MacDonald, DW Beilman, KV Kremenetski, Y Sheng, LC Smith, ...
science 314 (5797), 285-288, 2006
|Recent third pole’s rapid warming accompanies cryospheric melt and water cycle intensification and interactions between monsoon and environment: Multidisciplinary approach with …|
T Yao, Y Xue, D Chen, F Chen, L Thompson, P Cui, T Koike, WKM Lau, ...
Bulletin of the American Meteorological Society 100 (3), 423-444, 2019
|Mapping wetland changes in China between 1978 and 2008|
ZG Niu, H Zhang, X Wang, WB Yao, DM Zhou, KY Zhao, H Zhao, NN Li, ...
Chinese Science Bulletin 57 (22), 2813-2823, 2012
|A high‐resolution GIS‐based inventory of the west Siberian peat carbon pool|
Y Sheng, LC Smith, GM MacDonald, KV Kremenetski, KE Frey, ...
Global Biogeochemical Cycles 18 (3), 2004
|Area partitioning for channel network extraction using digital elevation models and remote sensing|
D Shen, Y Sheng
IEEE Geoscience and Remote Sensing Letters 9 (2), 194-198, 2011
|A regional-scale assessment of Himalayan glacial lake changes using satellite observations from 1990 to 2015|
Y Nie, Y Sheng, Q Liu, L Liu, S Liu, Y Zhang, C Song
Remote Sensing of Environment 189, 1-13, 2017
|A first pan‐Arctic assessment of the influence of glaciation, permafrost, topography and peatlands on northern hemisphere lake distribution|
LC Smith, Y Sheng, GM MacDonald
Permafrost and Periglacial Processes 18 (2), 201-208, 2007
|Recent global decline in endorheic basin water storages|
J Wang, C Song, JT Reager, F Yao, JS Famiglietti, Y Sheng, ...
Nature geoscience 11 (12), 926-932, 2018
|Coherent lake growth on the central Tibetan Plateau since the 1970s: Characterization and attribution|
Y Lei, T Yao, BW Bird, K Yang, J Zhai, Y Sheng
Journal of Hydrology 483, 61-67, 2013
|Response of inland lake dynamics over the Tibetan Plateau to climate change|
Y Lei, K Yang, B Wang, Y Sheng, BW Bird, G Zhang, L Tian
Climatic Change 125 (2), 281-290, 2014
|Efficient meltwater drainage through supraglacial streams and rivers on the southwest Greenland ice sheet|
LC Smith, VW Chu, K Yang, CJ Gleason, LH Pitcher, AK Rennermalm, ...
Proceedings of the National Academy of Sciences 112 (4), 1001-1006, 2015
|Representative lake water extent mapping at continental scales using multi-temporal Landsat-8 imagery|
Y Sheng, C Song, J Wang, EA Lyons, BR Knox, JS Cox, F Gao
Remote Sensing of Environment 185, 129-141, 2016
|An automated scheme for glacial lake dynamics mapping using Landsat imagery and digital elevation models: A case study in the Himalayas|
J Li, Y Sheng
International Journal of Remote Sensing 33 (16), 5194-5213, 2012
|Monitoring decadal lake dynamics across the Yangtze Basin downstream of Three Gorges Dam|
J Wang, Y Sheng, TSD Tong
Remote Sensing of Environment 152, 251-269, 2014
|Regional differences of lake evolution across China during 1960s–2015 and its natural and anthropogenic causes|
G Zhang, T Yao, W Chen, G Zheng, CK Shum, K Yang, S Piao, Y Sheng, ...
Remote sensing of environment 221, 386-404, 2019
|Quantitative dynamic flood monitoring with NOAA AVHRR|
Y Sheng, P Gong, Q Xiao
International Journal of Remote Sensing 22 (9), 1709-1724, 2001