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Simulating the Water-Heat Processes on Typical Sites in the Mountainous Areas of the Upper Reaches of the Heihe River

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ã€Authorã€‘ CHEN Hao1,NAN Zhuo-tong1,2,WANG Shu-gong1,ZHAO Lin1(1.Cold and Arid Regions Environmental and Engineering Research Institute,Chinese Academy of Sciences,Lanzhou Gansu 730000,China;2.State Key Laboratory of Frozen Soil Engineering,Cold and Arid Regions Environmental and Engineering Research Institute,Chinese Academy of Sciences,Lanzhou Gansu 730000,China)

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ã€Abstractã€‘ The Noah land surface model(LSM) is widely used to simulate water-heat processes in global or regional land surface studies.However,there are few studies on its applicability in cold alpine area characterized by high elevation and cold climate condition.So far,no study has been conducted using Noah LSM in the upper reaches of the Heihe River,a typical cold alpine area.In this paper,based on the observation from 2008 to 2009,Noah LSM was applied to simulate water-heat processes in two typical sites,e.g.,Dadongshu Pass Site and Arou Site,located in the upper reaches of the Heihe River.A comparison between simulated and observed soil temperatures and soil liquid contents shows that Noah LSM is able to describe the actual water and heat processes in such alpine cold regions.Soil temperature is simulated generally well,with a few biases in winter.Simulated soil liquid content is generally lower than observed one.Large biases in soil liquid simulation in the upper layers can be seen obviously in spring,when frozen soil begins to thaw.Abovementioned simulation problems are largely related with the insufficient considerations of Noah LSM in soil profile heterogeneity,resulting in incorrect estimating ice content in spring,as well as with the inaccurate precipitation observation,especially in winter.Apart from the applicability of Noah LSM,observation quality is also discussed in this paper.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ Noah land surface modelï¼› land surface processesï¼› water and heat processesï¼› Heihe River basinï¼›

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Simulating the Water-Heat Processes on Typical Sites in the Mountainous Areas of the Upper Reaches of the Heihe River

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