Under a persistent warming climate and increasing human activities, permafrost in the
Source Area of the Yellow River (SAYR) has been degrading regionally, resulting in many …

The climate of the Tibetan Plateau (TP) has experienced substantial changes in recent
decades as a result of the location's susceptibility to global climate change. The changes …

Accurately understanding the intra-annual variation in runoff evolution attribution is essential
for basin-scale water resources management. In this study, the runoff in the Yellow River …

Abstract Study region The Yellow River Basin in China. Study focus The discharge in the
lowlands of a watershed is susceptible to the variations in its high-altitude headwaters in …

During the last decades, significant changes in runoff (Q) have been reported in many
regions, and attributing the changes is of great significance for water resource management …

The source region of the Yellow River Basin (SYRB) is an alpine region sensitive to climate
changes. As global climate change intensifies, it is essential to explore the future …

Enhancing the comprehension of hydrological drought evolution and drought propagation
mechanisms is crucial for effective drought risk management in a changing environment …

Thousands of lakes on the Tibetan Plateau (TP) play a critical role in the regional water
cycle, weather, and climate. In recent years, the areas of TP lakes underwent drastic …

Lake eutrophication, exacerbated by high-intensity anthropogenic forcing, threatens water
ecological security and the sustainable development of fisheries. Accurately evaluating lake …

Abstract In the Yellow River source area (SAYR), a large-scale isotope hydrological
monitoring effort of landscape heterogeneity was implemented. To assess and determine …