Moso Bamboo (Phyllostachys pubescens) is a widely spread bamboo in Taiwan. The expansion of Moso bamboo in Taiwan may alter the water cycle in local ecosystem. Water use characteristics, such as transpiration, sap flux, plant water status and culm conductivity in Moso bamboo forest, can determine the water cycle in a forest ecosystem. Thus, in order to deal with bamboo stand management, it is necessary to study the water use characteristics of Moso bamboo. Previous studies revealed that Moso bamboo had a higher sap flux density; hence, higher annual transpiration than coniferous forests in the surrounding around Taiwan. However, the relationship between the aging of culm and water use characteristics is rarely investigated for Moso bamboo, which has a relatively shorter life span. This study aimed to clarify the age effects on (1) leaf water potential and (2) culm conductivity. Moreover, data on (3) sap flux density investigated in a previous study were integrated with the results of leaf water potential and culm conductivity in this study to comprehensively elaborate the age effects on water use characteristics of Moso bamboo. The 1, 2, 3, 4, 5 and >5-year-old bamboos were selected for observation. Leaf water potential from July 2017 to April 2018 was measure by a pressure chamber. Culm stain experiment was carried out on bamboo culms to estimate the culm conductivity using the ratio of the stained vascular area or number to the total vascular area or number, respectively. The results showed that 5 and >5-year-old groups had significantly lower midday leaf water potential than the other four age groups. However, no distinctive difference was found in predawn leaf water potential among six age groups. The 4, 5 and >5-year-old groups had less ratio of stained area or number to the total vascular area or number than the other groups. Based on the observation in the present study and the findings in previous studies, excessively low midday leaf water potential for 5 and >5-year-old-groups might result from poor culm hydraulic conductivity. The less stained area ratios of 4, 5 and >5-year-old groups might be the evidence of poor culm hydraulic conductivity. The less stained area ratio was probably due to embolism and tyloses blockage in vascular bundles in older culms. Therefore, Moso bamboo probably starts to show senescence in water use after 4years in age. In terms of relationship to water use, this study confirmed that low culm hydraulic conductivity in the older culms might result in excessively low midday water potential. Such water use characteristics in the older culms may inhibit the stomatal conductance and lead to low sap flux density to avoid cavitation and water stress.