Advances in Climate Change Research (Oct 2024)

Water budgets in an arid and alpine permafrost basin: Observations from the High Mountain Asia

  • Qing-Feng Wang,
  • Hui-Jun Jin,
  • Dong-Liang Luo,
  • Yu Sheng,
  • Jun Wen,
  • Chien-Lu Ping,
  • Mark H. Clark,
  • Qiang Ma,
  • Xiao-Ying Jin,
  • Ji-Chun Wu,
  • Yu-Zhong Yang,
  • Qiang Li,
  • Raul D. Şerban,
  • Daqing Yang,
  • Victor F. Bense,
  • Qing-Bai Wu

Journal volume & issue
Vol. 15, no. 5
pp. 830 – 844

Abstract

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Ground freeze‒thaw processes have significant impacts on infiltration, runoff and evapotranspiration. However, there are still critical knowledge gaps in understanding of hydrological processes in permafrost regions, especially of the interactions among permafrost, ecology, and hydrology. In this study, an alpine permafrost basin on the northeastern Qinghai‒Tibet Plateau was selected to conduct hydrological and meteorological observations. We analyzed the annual variations in runoff, precipitation, evapotranspiration, and changes in water storage, as well as the mechanisms for runoff generation in the basin from May 2014 to December 2015. The annual flow curve in the basin exhibited peaks both in spring and autumn floods. The high ratio of evapotranspiration to annual precipitation (>1.0) in the investigated wetland is mainly due to the considerably underestimated ‘observed’ precipitation caused by the wind-induced instrumental error and the neglect of snow sublimation. The stream flow from early May to late October probably came from the lateral discharge of subsurface flow in alpine wetlands. This study can provide data support and validation for hydrological model simulation and prediction, as well as water resource assessment, in the upper Yellow River Basin, especially for the headwater area. The results also provide case support for permafrost hydrology modeling in ungauged or poorly gauged watersheds in the High Mountain Asia.

Keywords