, 2013 and Cuo et al , 2013a) Valuable

as they are, thes

, 2013 and Cuo et al., 2013a). Valuable

as they are, these studies also show that there is still a lot to improve in the simulation of the cryospheric processes such as the thaw and freeze cycles of snow, frozen soil and glacier, glacier volume and movement, extent and depth of snow, frozen soil and glacier, and in the incorporation of the cryospheric processes into physically based hydrological or land surface models that account for both energy and water balances on the TP. The TP has an abundance of permafrost, glacier, ice and snow. Permafrost occupies about 75% of the entire area (Cheng and Jin, 2013) while glacial coverage equals to 49,873.44 km2 in area (Yao and Yao, 2010). Snow covers the majority of the land during winter (Immerzeel this website et al., 2009). All cryospheric components

buy Vorinostat contribute to streamflow in one way or another and understanding their roles and impacts of their changes is important for understanding the hydrological processes and hydrological changes as a whole. Yang et al. (1993), Zhang et al. (2003), Tian et al. (2009) and Niu et al. (2010) studied the relationship between frozen soil and streamflow in small-scale basins on the TP. Their findings include (a) frozen soil resulted in a reduction in the lag time between precipitation and peak flow, (b) frozen soil depth and streamflow exhibited positive correlation, and (c) permafrost degradation resulted in a slowdown of peak flow recession. Glacier and snow are important water resources whose contributions to streamflow differ at temporospatial scales. Glacier

acts on longer time scales such as years or decades while snow contribution tends to be seasonal and shorter in duration. Glacier contribution to streamflow over decades has been examined for various river basins on the TP using mostly degree-day modeling approaches Ureohydrolase (Liu, 1999, Kang et al., 2000, Liu et al., 2009, Gao et al., 2010b, Immerzeel et al., 2010, Zhang et al., 2012a and Zhang et al., 2013b) and other empirical relationships (e.g. Xie et al., 2006b), but large gaps exist among these studies concerning the quantitative contribution of glaciers and a consensus has not been reached. It is generally accepted that glacier contribution is important mainly for headwaters or basins for which glacier coverage is relatively large. Ye et al. (1999) stated that when glacier coverage is greater than 5%, glacier contribution to streamflow starts to show up in a small basin in Xinjiang, China. However, it is unclear whether or not the criterion of 5% glacial coverage is also applicable for large river basins on the TP. Snow contribution to streamflow is also a topic of debate for this region. Cuo et al. (2013a) showed that snow contribution is seasonal and is important in mid-spring when up to 40% of the seasonal streamflow comes from snow melt in YLR. Immerzeel et al., 2009 and Immerzeel et al.

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