ChenF H, XieT T, YangY J, et al.. Discussion of the “Warming and Wetting” Trend and Its Future Variation in the Drylands of Northwest China under Global Warming. Science China Earth Sciences, 2023, 66(6): 1241-1257

ChenY R, LiuB, CaiX, et al.. Moisture Transport and Sources of an Extreme Rainfall Event of June 2021 in Southern Xinjiang, China. Advances in Climate Change Research, 2022, 13(6): 843-850

DingY H, LiuY J, XuY, et al.. Regional Responses to Global Climate Change: Progress and Prospects for Trend, Causes, and Projection of Climatic Warming-Wetting in Northwest China. Advances in Earth Science, 2023, 38(6): 551-562

DongW H, MingY, DengY, et al.. Recent Wetting Trend over Taklamakan and Gobi Desert Dominated by Internal Variability. Nature Communications, 2024, 15: 4379

GongY Q, YuH P, HuH C, et al.. The Water Vapor Origin of a Rainstorm Event in the Taklamakan Desert. Journal of Geophysical Research: Atmospheres, 2024, 129(24): e2024JD041382

HuangJ P, YuH P, GuanX D, et al.. Accelerated Dryland Expansion under Climate Change. Nature Climate Change, 2016, 6(2): 166-171

LiM Y, YaoJ Q. Precipitation Extremes Observed over and around the Taklimakan Desert, China. PeerJ, 2023, 11: e15256

LiuC X, ChenY N, HuangW J, et al.. Climate Warming Positively Affects Hydrological Connectivity of Typical Inland River in Arid Central Asia. NPJ Climate and Atmospheric Science, 2024, 7: 250

PritchardH D. Asia’s Glaciers are a Regionally Important Buffer against Drought. Nature, 2017, 545(7653): 169-174

Su, Y. N., Chen, S. Q., Sui, Y. J., et al., 2025. Gaining Water Bodies by Climate Change Benefits Water Crisis Mitigation in Central Asia. Science Bulletin. https://doi.org/10.1016/j.scib.2025.03.053

SunA J, ZhaoH, MaM M, et al.. Southward Retreat of the Keriya River Drove Human Migration in the Taklimakan Desert during the Late Holocene. Quaternary Science Reviews, 2024, 332: 108665

TangS J, ZhouT J, ZhangL X, et al.. Moisture Sources for the Unprecedented Precipitation Event in the Heart of Taklimakan Desert. Weather and Climate Extremes, 2024, 46: 100739

WangX, YuZ Y, LuoC W, et al.. Spatial Heterogeneity in the Formation of Large Deserts in Midlatitude Asia Revealed by Drill Core Evidence. Science Bulletin, 2024, 69(22): 3512-3515

WangZ R, WuB M, WuG, et al.. Spatio-Temporal Coupled Dynamics of Oasis Vegetation Succession in Response to Water conveyance: A Comparative Study in the Taklimakan Desert. Ecological Frontiers, 2025, 45(2): 455-462

YangP, XiaJ, ZhanC S, et al.. Monitoring the Spatio-Temporal Changes of Terrestrial Water Storage Using GRACE Data in the Tarim River Basin between 2002 and 2015. Science of the Total Environment, 2017, 595: 218-228

YangF, HeQ, HuangJ P, et al.. Desert Environment and Climate Observation Network over the Taklimakan Desert. Bulletin of the American Meteorological Society, 2020, 102(6): E1172-E1191

YangX P, DuJ H, LiangP, et al.. Palaeoenvironmental Changes in the Central Part of theTaklamakan Desert, Northwestern China Sincethe Late Pleistocene. Chinese Science Bulletin, 2021, 66(24): 3205-3218

YaoJ Q, QuL L, ChenY N, et al.. Hydro-Climatological Drivers of the Unprecedented Flooding in August 2022 along the Tarim River, China. Journal of Hydrology, 2024, 639: 131630

ZhangL Y, YuY, MalikI, et al.. Water Resources Evaluation in Arid Areas Based on Agricultural Water Footprint—A Case Study on the Edge of the Taklimakan Desert. Atmosphere, 2023, 14(1): 67

ZhangT G, WangW C, AnB S, et al.. Enhanced Glacial Lake Activity Threatens Numerous Communities and Infrastructure in the Third Pole. Nature Communications, 2023, 14: 8250