Abstract Nitrogen (N) and phosphorous (P) are generally considered as the most important factors limiting plant growth and ecosystem productivity. Foliar concentrations of nitrogen and phosphorous are good indicators of nutrient status in plants, and thus have been one of the major topics in plant physiological ecology. In this study, from July 2006 to August 2008, I collected fresh leaf and leaf fall samples from 17 native broadleaf tree species and 5 native coniferous species in the montane forests of central Taiwan to analyze their nitrogen and phosphorous concentrations and to determine the relative limitation of N or P on the growths of forest trees in Taiwan. Compared with hardwood species, conifer species had higher foliar N concentrations and lower foliar P concentrations. According to the thresholds of foliar N: P weight ratio proposed in Koerselman and Meuleman (1996), N was the major limiting factor for conifers species (N: P weight ratio <14), and P for hardwood species (N: P weight ratio >16). According to the thresholds of resorption proficiency proposed in Killingbeck (1996), 16 out of 17 hardwood species had incomplete N resorption (N concentrations in leaf fall >1.0) and 10 out of 17 had incomplete P resorption (P concentrations in leaf fall >0.05). By contrast, only 1 out of 5 conifer species had incomplete N resorption and 4 out of 5 conifer species had incomplete P resorption. Therefore, these comparisons still suggest that N was the major limiting factor for conifers species and P for hardwood species. Nitrogen and P concentrations and N: P weight ratio differed significantly between sampling sites (p <0.0001), and may result from the variations in temperature and the soil age. According to the thresholds of foliar N: P weight ratio proposed in Koerselman and Meuleman (1996), N was the major limiting factor for trees in Chitou and Shen-Mu Village (N: P weight ratio < 14) but P for trees in Tatachia and Mt. Ho-Huan (N: P weight ratio >16). According to the thresholds of resorption proficiency proposed in Killingbeck (1996), trees in Tatachia and Mt. Ho-Huan had more completed N resorption than the other sites but trees in Shen-Mu Village had more completed P resorption than the other sites. Nitrogen resorption efficiency differed significantly between the sampling sites (p <0.05), but P resorption efficiency did not differ significantly. Since conifers species are distributed in higher elevations than hardwood species in Taiwan. The differences between conifer and hardwood species could simply reflect the differences between the sites. In my study, the relationships between foliar P/N:P ratio and temperature were correspond to the Soil Substrate Age hypothesis, but between foliar N and temperature were correspond to the °T-Biogeochemistry hypothesis.