Ground-based remotely sensed high-resolution canopy reflectance spectra (350-2400 nm) were obtained from field experiments to study spectral differences among rice cultivars during the growing periods and between the cropping seasons of 2002. The suitable spectral characteristics were also selected to build the spectral models for cultivar discrimination. In the first step, 3-11 narrow bands were selected progressively from reflectance spectra as the spectral characteristics by the stepwise discriminant analysis. Secondly, through the principal components transformation processes the selected narrow bands were composed to various components, which were used to establish the spectral models by the discriminant analysis. It indicated that the accuracy in discriminating cultivars TNG 67, TK 8, and TNG 71 was related to numbers of selected narrow bands, expressing as an exponential rise to maximum function in both cropping seasons. Generally the accuracy in cultivar discrimination was higher in the first crop than in the second crop under same numbers of the selected narrow bands. For example, when 7 narrow bands were selected, overall accuracy was 87% in first crop and was 82% in second crop. The percent overall accuracy increased slowly when 7 to 10 bands were selected. To reach 95% of overall accuracy, at least 15 bands should be selected. It further showed that the distance distribution among the sampling populations of three cultivars was different between cropping seasons. The distance between TK 8 and TNG 71 was smaller than other pairs in the first crop while the distance between TK 8 and TNG 67 was smaller than others in the second crop. As a result, this study provides information about differences in spectral characteristics among cultivars TNG 67, TK 8 and TNG 71 as well as an appropriate analysis method for discriminating these three cultivars using hyperspectral data of both cropping seasons.