Tropical and subtropical regions can be particularly severely affected by flooding. Climate
change is expected to lead to more intense precipitation in many regions of the world …

Abstract The recent (1970–1999) and future (2070–2099) climates under the SRES A1B
scenario, simulated by the regional climate model RegCM4. 0 driven with lateral boundary …

Revealing the impact of future climate change on the characteristics and evolutionary
patterns of meteorological and hydrological droughts and exploring the joint distribution …

To better understand the mechanisms of the hydro-ecological cycle in the changing
environments of the Yangtze River Basin (YZRB), it is valuable to investigate vegetation …

ABSTRACT Given the availability of a new generation of general circulation model
simulations from the Coupled Model Intercomparison Project Phase 5 (CMIP5) archive, we …

Flood disasters related to climate change are becoming increasingly frequent, indicating the
potential for repeated future incidence. It is essential to fully understand the causes and …

Accurate quantification of soil moisture contributes significantly to an understanding of land
surface processes. In-situ observable soil moisture data are often sparsely distributed, and …

Floods are some of the most frequent and severe natural hazards worldwide. In the context
of climate change, the risk of extreme floods is expected to increase in the future. While, the …

Abstract The Yangtze River Watershed in China is a climate change hotspot featuring strong
spatial and temporal variability; hence, it poses a certain threat to social development …

Lakes are sensitive to environmental changes, and an example of this change is the
decreased water level in the Yamzho Yumco Lake (YYL, in southern Tibetan Plateau), which …