The Budyko models provide a transparent framework for analyzing climate-catchment
interactions and therefore have been widely used to quantify the role of vegetation …

We live in a world where biophysical and social processes are tightly coupled. Hydrologic
systems change in response to a variety of natural and human forces such as climate …

The Budyko equation has achieved iconic status in hydrology for its concise and accurate
representation of the relationship between annual evapotranspiration and long-term …

The changing climate and intensifying human activities have made an impact on the
hydrological processes in the upper Yangtze River (UYR), but quantifying their effects …

Identifying the changes in terrestrial water storage is essential for a comprehensive
understanding of the regional hydrological mass balance under global climate change. This …

Abstract Knowledge of the temporal variability of evapotranspiration (ET) is fundamental to a
comprehensive understanding of hydroclimatologic processes under a changing climate …

Investigating the factors that affect intra-annual evapotranspiration (ET) and streamflow
variability is important to regional hydrological cycles and energy balance research. In this …

Scientific viewpoints on the long-term hydrological responses to factors other than climatic
change remain controversial and yet the impacts of these factors are often neglected at the …

Previous studies have quantified the contributions of climate factors, vegetation, and
terrestrial water storage change, and their interaction effects on hydrological process …

Vegetation and climate play critical roles in the hydrological cycle as vital components of the
earth system. Understanding the impacts of changes in vegetation composition and climate …