This paper is to perform frequency-domain analysis of the jacket support structure for OC4 5MW offshore wind turbine in Fuhai Offshore in 50m of water under Taiwan’s local environmental sea state, and estimate the cumulative fatigue damage values of 20 year lifetime. SACA software is employed to analyze the dynamic response at each significant wave height and time period of the wave environment. After extracting the FA, IPB, and OPB structures response of the observation joints and multiplying the stress concentration factors, we Fourier transform the autocorrelated strss signal into a power spectral density, then apply the spectral fatigue analysis by Dirlik method. Palmgren-Miner rule is employed to evaluate the fatigue life under the consideration of 20 year lifetime. This paper takes the sea conditions of the Taiwan Strait as an example, and compares the damage caused by the combination of various representative sea conditions with the actual damage of 120 environmental conditions, then explore whether it is possible to approximate the real situation with a less number of environmental combinations. Because of the assumption of the linear system, frequency domain fatigue analysis can be greatly reduced by 90% compared with the time domain method. This study proposes a method of using a representative environment combination, which can greatly reduce the analysis quantity, it is recommended to use the combination of the top nine probability sea conditions (not considering the lower wave height), only need to spend 1/12 of the original time, the average damage ratio can reach 60.3 %, and the coefficient of variation is 37.7 %.