Construction and verification of distributed hydrothermal coupling model in the source area of the Yangtze River

IF 4.7 2区 地球科学 Q1 WATER RESOURCES
Yongde Gan , Qingqing Li , Huan Liu , Xuanxuan Wang , Yangwen Jia , Yushuai Wu , Zuhao Zhou
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Abstract

Study region

The source area of the Yangtze River, a typical catchment in the cryosphere on the Tibet Plateau, was used to develop and validate a distributed hydrothermal coupling model.

Study focus

Climate change has caused significant changes in hydrological processes in the cryosphere, and related research has become hot topic. The source area of the Yangtze River (SAYR) is a key catchment for studies of hydrological processes in the cryosphere, which contains widespread glacier, snow, and permafrost. However, the current hydrological modeling of the SAYR rarely depicts the process of glacier/snow and permafrost runoff from the perspective of coupled water and heat transfer, resulting in distortion of simulations of hydrological processes. Therefore, we developed a distributed hydrothermal coupling model, namely WEP-SAYR, based on the WEP-L (Water and energy transfer process in large river basins) model by introducing modules for glacier and snow melt and permafrost freezing and thawing.

New hydrological insights for the region

In the WEP-SAYR model, the soil hydrothermal transfer equations were improved, and a freezing point equation for permafrost was introduced. In addition, the glacier and snow meltwater processes were described using the temperature index model. Compared to previously applied models, the WEP-SAYR portrays in more detail glacier/snow melting, dynamic changes in permafrost water and heat coupling, and runoff dynamics, with physically meaningful and easily accessible model parameters. The model can describe the soil temperature and moisture changes in soil layers at different depths from 0 to 140 cm. Moreover, the model has a good accuracy in simulating the daily/monthly runoff and evaporation. The Nash-Sutcliffe efficiency exceeded 0.75, and the relative error was controlled within ±20 %. The results showed that the WEP-SAYR model balances the efficiency of hydrological simulation in large scale catchments and the accurate portrayal of the cryosphere elements, which provides a reference for hydrological analysis of other catchments in the cryosphere.
长江源区分布式热液耦合模型的构建与验证
研究区域长江源地区是西藏高原冰冻圈的典型集水区,研究人员利用该地区开发并验证了分布式水热耦合模型。研究重点气候变化引起了冰冻圈水文过程的显著变化,相关研究已成为热点话题。长江源区是研究冰冻圈水文过程的重要集水区,这里有广布的冰川、积雪和永久冻土。然而,目前的水文模型很少从水热耦合传导的角度描述冰川/积雪和冻土径流过程,导致水文过程模拟失真。因此,我们在 WEP-L(大流域水和能量传递过程)模型的基础上,通过引入冰川和积雪融化以及冻土冻融模块,开发了分布式水热耦合模型,即 WEP-SAYR。此外,还利用温度指数模型描述了冰川和积雪融水过程。与之前应用的模型相比,WEP-SAYR 模型更详细地描述了冰川/积雪融化、冻土水热耦合动态变化和径流动态,模型参数具有物理意义且易于获取。该模型可以描述 0 至 140 厘米不同深度土壤层的土壤温度和湿度变化。此外,该模型在模拟日/月径流和蒸发量方面具有很高的精度。Nash-Sutcliffe 效率超过 0.75,相对误差控制在 ±20 %以内。结果表明,WEP-SAYR 模型兼顾了大尺度集水区的水文模拟效率和对冰冻圈要素的准确描述,为冰冻圈其他集水区的水文分析提供了参考。
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来源期刊
Journal of Hydrology-Regional Studies
Journal of Hydrology-Regional Studies Earth and Planetary Sciences-Earth and Planetary Sciences (miscellaneous)
CiteScore
6.70
自引率
8.50%
发文量
284
审稿时长
60 days
期刊介绍: Journal of Hydrology: Regional Studies publishes original research papers enhancing the science of hydrology and aiming at region-specific problems, past and future conditions, analysis, review and solutions. The journal particularly welcomes research papers that deliver new insights into region-specific hydrological processes and responses to changing conditions, as well as contributions that incorporate interdisciplinarity and translational science.
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