Konishii fir (Cunninghamia konishii) is one of the important native conifers in Taiwan. Although it has high economic and ecological values, its contribution in carbon storage was rarly evaluated. A Konishi fir plantation in Huisun Experimental Forest Station of central Taiwan was conducted on this study. Some standing trees were sampled and felled to develop tree height, volume and aboveground biomass equations. These equations were then used to predict volume, aboveground biomass and carbon storage. The volume of this plantation was predicted to be 580.9 m^3 ha^(-1), indicating that the mean annual increment was 11.0 m^3 ha^(-1) yr^(-1). The aboveground biomass and carbon storage were predicted to be 271.15 and 135.58 Mg ha^(-1), respectively. According to the aboveground carbon storage, the mean annual carbon sequestration was calculated to be 2.56 Mg ha^(-1) yr^(-1). On the other hand, the breast height form factor and transformation coefficient between the volume and aboveground carbon storage were predicted for this species where the former was 0.352 and the latter was 228.40 kg m^(-3), repectivly. Our results provide a comprehensive information for Konishi fir plantations in productivity and carbon storage capacity.