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Impact of soil freeze-thaw mechanism on the runoff dynamics of two Tibetan rivers
Zheng, DH (Zheng, Donghai)1,2; van der Velde, R (van der Velde, Rogier)2; Su, ZB (Su, Zhongbo)2; Wen, J (Wen, Jun)3; Wang, X (Wang, Xin)4; Yang, K (Yang, Kun)5
Source PublicationJOURNAL OF HYDROLOGY
2018-08-01
Volume563Issue:0Pages:382-394
DOI10.1016/j.jhydrol.2018.06.024
Abstract

Soil freeze-thaw is typically not fully considered in quantifying the hydrology of seasonally frozen catchments located, for instance, on the Third Pole. We investigate the role of soil water content and freeze-thaw state on the runoff dynamics of the headwaters of the Yellow and Yangtze rivers, both situated on the eastern Tibetan Plateau. A version of augmented Noah land surface model (LSM) allowing reliable simulation of key hydro meteorological processes over the Tibetan Plateau is employed and further validated using measured monthly discharge records. From measurements supported by the Noah LSM simulations for more than thirty years (1979-2010), we deduce an annual hysteresis loop, viz. a time lag between measured/simulated runoff and precipitation for both catchments. Our simulation results with the augmented Noah LSM further demonstrate that annual anticlockwise (or clockwise) hysteresis loops are also observed for the liquid soil water (or soil ice). We infer from the LSM simulations that the amount of water stored in the soil is the factor driving the hysteresis between runoff and precipitation, whereby the state of the stored water plays a crucial role in the seasonality of the runoff regime. Further analyses illustrate that inclusion of soil freeze-thaw model physics effectively increases the thermal inertia of the soil column that dampens large variations of soil temperature and turbulent heat fluxes. These findings highlight the importance of soil freeze-thaw for the hydrology and runoff regime across the High Asia's rivers as well as the need for a thorough understanding of this process to generate reliable projections.

Subject Area地理学
WOS IDWOS:000441492700031
Language英语
Indexed BySCIE
KeywordLand-surface Model Data Assimilation System Hydrological Processes Yellow-river Frozen Soil Climate-change Plateau Permafrost Moisture Parameterization
WOS Research AreaEngineering ; Geology ; Water Resources
WOS SubjectEngineering, Civil ; Geosciences, Multidisciplinary ; Water Resources
Cooperation Status国际
ISSN0022-1694
Department环境变化与地表过程重点实验室
PublisherELSEVIER SCIENCE BV
Citation statistics
Document Type期刊论文
Identifierhttp://ir.itpcas.ac.cn/handle/131C11/8578
Collection图书馆
Corresponding AuthorZheng, DH (Zheng, Donghai)
Affiliation1.Chinese Acad Sci, Inst Tibetan Plateau Res, Beijing 100101, Peoples R China;
2.Univ Twente, Fac Geoinformat Sci & Earth Observat, Enschede, Netherlands;
3.Chengdu Univ Informat Technol, Coll Atmospher Sci, Plateau Atmosphere & Environm Key Lab Sichuan Pro, Chengdu, Sichuan, Peoples R China;
4.Chinese Acad Sci, Northwest Inst Ecoenvironm & Resources, Key Lab Land Surface Proc & Climate Change Cold &, Lanzhou, Gansu, Peoples R China;
5.Tsinghua Univ, Dept Earth Syst Sci, Beijing, Peoples R China.
Recommended Citation
GB/T 7714
Zheng, DH ,van der Velde, R ,Su, ZB ,et al. Impact of soil freeze-thaw mechanism on the runoff dynamics of two Tibetan rivers[J]. JOURNAL OF HYDROLOGY,2018,563(0):382-394.
APA Zheng, DH ,van der Velde, R ,Su, ZB ,Wen, J ,Wang, X ,&Yang, K .(2018).Impact of soil freeze-thaw mechanism on the runoff dynamics of two Tibetan rivers.JOURNAL OF HYDROLOGY,563(0),382-394.
MLA Zheng, DH ,et al."Impact of soil freeze-thaw mechanism on the runoff dynamics of two Tibetan rivers".JOURNAL OF HYDROLOGY 563.0(2018):382-394.
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