Spatial variability of runoff recharge sources and influence mechanisms in an arid mountain flow‐producing zone

Abstract: In‐depth knowledge of the hydrological conditions of basins in arid regions can help to maintain the long‐term water security. The mechanisms of runoff generation and flow paths in different landscape areas are not fully known due to spatial variability. We have explored the mechanisms by which spatial variability affects the runoff recharge sources in the Xiying River Basin. The results showed that the spatial variability of the sources and generation mechanisms of runoff in the arid mountain flow‐producing z… Show more

“…Meanwhile, many studies have focused on the stable isotope variation of precipitation in the eastern region of the Tibetan Plateau (Cui & Li, 2015), studied the stable isotope characteristics of precipitation in the Qinghai Lake region, analysed the water vapour source of precipitation in Qinghai Lake, and calculated the contribution of lake evaporation to local precipitation. However, the stabilization isotope method has been used to study the rainfall control mechanisms in the Yellow River source region in the north-east of the Tibetan Plateau, and rainfall is not only affected by large-scale circular currents, such as western winds, East Asian cyclones, and South Asian typhoons, but also by the terrain, so that the precipitation process is more complex and the corresponding water vapour sources are complex and variable, while the high altitude range of the Yellow River source region is large and sampling is difficult, which makes the long-standing unknown water cycle mechanism and water resource assessment errors (Sang et al, 2022) difficult to eliminate. The purpose of this study is to: (1) systematically analyse the characteristics of time and space changes in precipitation-stable isotopes; (2) explore the main sources of water vapour in the area of study; and (3) investigate the relationship of regional precipitation and stabilization isotopes with major environmental and geographical factors.…”

Mechanisms of isotopic control of precipitation in the Yellow River source region

“…Meanwhile, many studies have focused on the stable isotope variation of precipitation in the eastern region of the Tibetan Plateau (Cui & Li, 2015), studied the stable isotope characteristics of precipitation in the Qinghai Lake region, analysed the water vapour source of precipitation in Qinghai Lake, and calculated the contribution of lake evaporation to local precipitation. However, the stabilization isotope method has been used to study the rainfall control mechanisms in the Yellow River source region in the north-east of the Tibetan Plateau, and rainfall is not only affected by large-scale circular currents, such as western winds, East Asian cyclones, and South Asian typhoons, but also by the terrain, so that the precipitation process is more complex and the corresponding water vapour sources are complex and variable, while the high altitude range of the Yellow River source region is large and sampling is difficult, which makes the long-standing unknown water cycle mechanism and water resource assessment errors (Sang et al, 2022) difficult to eliminate. The purpose of this study is to: (1) systematically analyse the characteristics of time and space changes in precipitation-stable isotopes; (2) explore the main sources of water vapour in the area of study; and (3) investigate the relationship of regional precipitation and stabilization isotopes with major environmental and geographical factors.…”

Mechanisms of isotopic control of precipitation in the Yellow River source region

Identifying soil water movement and water sources of subsurface flow at a hillslope using stable isotope technique

Climate and landscape control of runoff stable isotopes in the inland mountain