%0 Journal Article %A LIU Lifang %A WANG Zhonggen %A JIANG Yan %A ZHANG Yongqiang %A SANG Yanfang %A LIU Changming %A WANG Hu %T Parameter uncertainty of HIMS model and its influence factor analysis %D 2013 %R 10.11820/dlkxjz.2013.04.005 %J PROGRESS IN GEOGRAPHY %P 532-537 %V 32 %N 4 %X Parameter uncertainty of hydrological model and its influence factor analysis have important significance in hydrological forecasting for ungauged basins. In this paper, the parameter uncertainty of HIMS model was examined by employing generalized likelihood uncertainty estimation (GLUE) method based on the simulation results of daily rainfall runoff data from the three catchments in Australia, and the influence factors of HIMS model parameters were discussed. It was found that parameters of HIMS model were all sensitivity parameters. And then the parameters distribution of HIMS model and the physical attributions in different catchments were compared. The results showed that the value of soil moisture storage capacity (Wsm) in the catchment was related to the precipitation, forest coverage and available water capacity in lay 1. As the precipitation, forest coverage and available water capacity in lay 1 rising, the value of Wsm increased. The larger values of runoff generation coefficient (R) and (r) in the catchment were due to the large soil saturated hydraulic conductivity and high forest coverage. The value of actual evapotranspiration coefficient (ε) was large in the catchment with low temperature and forest coverage. The value of Muskingum model coefficient (C2) was large when soil saturated hydraulic conductivity and forest coverage were high. %U https://www.progressingeography.com/EN/10.11820/dlkxjz.2013.04.005