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3.Guo Linmao, Wang Genxu*, Song Chunlin, Sun Shouqin, Li Kai, Li Jinlong,2024.Development of a modular distributed hydro-thermal coupled hydrological model for cold regions.Journal of Hydrology644 (2024) 132099

4.Wang, Z., Sun, S., Wang, G*., & Song, C. (2024). Spatial temporal differentiation of supra and sub-permafrost groundwater contributions to river runoff in the Eurasian Arctic and Qinghai‐Tibet Plateau permafrost regions.Water Resources Research,60, e2023WR035913.

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6.Huang, P., Wang, G. *, Guo, L., Mello, C. R., Li, K., Ma, J., & Sun, S. (2023). Most global gauging stations present biased estimations of total catchment discharge.Geophysical Research Letters, 50, e2023GL104253. https://doi. org/10.1029/2023GL10425

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8.Sun, X., Zhang, X., Wang, G., Hu, Z., Song, C., Lin, S., et al. (2023). An increasing effect of soil moisture on semiempirical water-use efficiency models from wet to dry climate regions.Journal of Geophysical Research: Biogeosciences, 128, e2022JG007347.

9.Fei Wang, Genxu Wang*, Junfang Cui *, Li Guo, et al., 2023. Hillslope-scale variability of soil water potential over humid alpine forests: Unexpected high contribution of time-invariant component.Journal of Hydrology617:129036

10.Guo Linmao, Huang Kewei, Genxu Wang^⁎, Shan Lin, 2022. Development and evaluation of temperature-induced variable source area runoff generation model.Journal of Hydrology610: 127894.

11.Juying Sun, Genxu Wang *, Xiangyang Sun, Zhaoyong Hu, Shan Lin, Fei Wang, Yi Yang (2022). New cognition on the response of reference evapotranspiration to climate change in China using an independent climatic driver system.Agricultural Water Management262: 107445.

12.Yang Li, Genxu Wang^⁎, Haijian Bing, et al., 2021. Watershed scale patterns and controlling factors of ecosystem respiration and methane fluxes in a Tibetan alpine grassland.Agricultural and Forest Meteorology306, 108451.

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14.Wang, G., Lin, S., Hu, Z., Lu, Y., Sun, X., & Huang, K. (2020). Improving actual evapotranspiration estimation integrating energy consumption for ice phase change across the Tibetan Plateau.Journal of Geophysical Research: Atmospheres, 125, e2019JD031799.

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