Makino bamboo, a native bamboo in Taiwan, is one of the most important bamboo with a high potential in carbon storage. The purpose of this study was to quantify stand diameter distribution and to predict aboveground biomass and carbon storage for a makino bamboo forest in central Taiwan. The Weibull probability density function was employed to quantify diameter distribution and the goodness-of-fit was examined by Kolmogorov-Smirnov test. The results showed the Weibull function was suitable for quantifying diameter distribution of makino bamboo. We combined the Weibull function and allometric model (Approach I) to predict aboveground biomass and used this approach to compare with the traditional approach that only employ allometric model (Approach II). The results showed no significant difference between these two approaches (t-value=2.749, p-value=0.051). Moreover, we predicted the aboveground carbon storage based on different age classes by the carbon content and biomass. The aboveground biomass and carbon storage were predicted to be 58.23±28.68 and 27.21±13.37 Mg ha^(-1), respectively. The results of this study will provide concise information for makino bamboo forest management for carbon storage.