Species distribution modeling (SDM) is now widely applied in plant ecology but still lack of integration with traditional vegetation survey data in Taiwan. In this study, we try to integrate model prediction, current vegetation map, and survey plots data to evaluate the transition of species potential habitats under climate change. Moreover, we expect to find survey plots that would be appropriate for long term ecological monitoring based on the vulnerability evaluation on species current habitats. After comparing the performance of each set of different based models and climate datasets within different scale, we treat WORLDCLIM data which is within global scale to build the statistical model classification and regression tree (CART) on Abies kawakamii, Tsuga chinensis var. formosana, and two Chamaecyparis species which are dominance in coniferous forest in Taiwan under current climate. Four bioclimatic variables are treated in the model and we find that thermal factors are more important than moisture ones. The model results would be able to be projected into two different climate change scenarios within three periods, and combined with current vegetation map to evaluate the potential shift and vulnerability for each species and their ecotones. Moreover, survey plots that are vulnerable would be the long term monitoring targets. The results show that the potential habitats of each target species would shift upward about 200 to 300 m between each period, and their habitats would differentiate gradually, causing ecotones narrower. Generally speaking, the impact of climate change on Abies would be stronger than on Tsuga and Chamaecyparis, though Abies would have competitive force within ecotone areas in future. The vulnerability evaluation told that northern Taiwan is more sensitive to climate change, and most of monitoring plots would fall within, revealing the shifting speed of species under climate change in the part would be faster. The trend corresponds to the literatures that indicated the altitudinal depression of plant species and vegetation within the region.