Based on the generalized nonlinear Schrdinger equation, the spectral evolution and the time-frequency characteristics of the soliton in photonic crystal fiber with three zero-dispersion wavelengths are numerically simulated. The results show that not only both blue- and red-shifted dispersive waves are generated in the two normal dispersion regions of the photonic crystal fiber, which is in good agreement with the phase-matching condition, but also high-intensity dispersive wave-soliton is generated in the low-frequency anomalous dispersion region due to the existence of the second anomalous dispersion region. Furthermore, it is found that in high-frequency normal dispersion region the blue-shifed dispersive wave is emitted by the dispersion wave-soliton.