Changes of Nonlinearity and Stability of Streamflow Recession Characteristics under Climate Warming in a Large Glaciated Basin of the Tibetan Plateau
The accelerated climate warming in the Tibetan Plateau after 1997 has strong consequences in hydrology, geography, and social wellbeing. In hydrology, the change of streamflow as a result of changes of dynamic water storage originating from glacier melt and permafrost thawing in the warming climate...
| Main Authors: | , , , , |
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| Format: | Text |
| Language: | English |
| Published: |
2022
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| Subjects: | |
| Online Access: | https://doi.org/10.5194/hess-2022-25 https://hess.copernicus.org/preprints/hess-2022-25/ |
| Summary: | The accelerated climate warming in the Tibetan Plateau after 1997 has strong consequences in hydrology, geography, and social wellbeing. In hydrology, the change of streamflow as a result of changes of dynamic water storage originating from glacier melt and permafrost thawing in the warming climate directly affects the available water resources for societies of the most populated nations in the world. In this study, annual streamflow recession characteristics are analyzed using daily climate and hydrological data during 1980–2015 in the Yarlung-Zangpo River basin (YRB) of south Tibetan Plateau. The recession characteristics are examined in terms of d Q /d t = − aQ b and the response/sensitivity of streamflow to changes of groundwater storage. Major results show that climate warming significantly increased the nonlinearity of the response ( b ) and decreased streamflow stability [log( a )] in most sub-basins of YRB. These changes of recession characteristics are attributed to opposite effects of increases of available water storage and recession timescale on the recession. Climate warming increased sub-basin water storage considerably by more recharge from accelerated glacier melting and permafrost thawing after 1997. Meanwhile, the enlarged storage lengthens recession timescales and thereby decreases the sensitivity of discharge to storage. In the recession period when the recharge diminished, increased evaporation under warmer temperatures acts as a competing process to reduce water storage and streamflow. While reservoir regulations in some basins helped reduce and even reverse some of these climate warming effects, this short-term remedy could only function before the solid water storage is exhausted when the climate warming continues. |
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