Hourly water samples collected in Yu-Feng catchment, an upper montane catchment of Shihmen reservoir, from 7 typhoon events in 2002 and 2006 were used to construct hydrographs and time series of sediment concentration. It is found that the relationship between discharge and sediment concentration of an event were related to the antecedent rainfall, rainfall characteristics, and the timing of the events in the typhoon season. Hysteresis effect was less obvious when typhoons occurred in the beginning of the typhoon season, while typhoons which took place right after others showed clockwise hysteretic loops, indicating signs of sediment depletion in the catchment. Comparison of the landslide intensities at the loci of hourly rainfall centers in temporal sequence with the pattern of sediment concentration in the hydrographs verified the importance of landslides distribution in affecting the fluvial sediment concentration. Comparisons of landslides records showed that landslide area increased two times from 2002 to 2006. It was found that the sediment concentration level in those 2006 typhoon events were 13.1 ~ 15.6 times of those in 2002. Sediment concentration in the rising limbs of those 2006 hydrographs increased with discharge at much higher rates than those of 2002 hydrographs. In contrast, sediment concentration in the falling limbs of those 2006 hydrographs decreased at much slower rates than those of 2002 hydrographs. These phenomena testified the existence of abundant sediment supply in 2006. The temporal-spatial relationship of the hourly rainfall centers and landslides and the temporal pattern of sediment concentration verified the importance of landslides distribution in affecting the sediment concentration of the river.