Taiwan is making efforts to transform its energy system in response to the global trend of climate change, vigorously developing renewable energy to achieve the goal of "Net Zero" emissions by 2050. However, the development of offshore wind farms may have an impact on the ecological environment of the vast western waters. The coastal waters are heavily used for human activities, and the adjacent protected reefs and estuary areas have abundant biodiversity, which may be greatly affected and require priority investigation. Underwater soundscapes can be used for biodiversity surveys and assessments of marine environmental impacts. This study used underwater passive acoustic monitoring technology to collect long-term underwater acoustic data and constructed soundscapes of Changhua and Yunlin coastal waters. The results showed that the soundscapes varied due to geographic landscape, seasonal differences, human activities, and marine biological activity. The median of the hourly average sound pressure level (SPL) in the frequency range of 10 Hz－20 kHz ranged from 114 to 123 dB (re 1µPa²). The median SPL in the coastal waters of Changhua was relatively higher. The 5th percentile (L5) was about 125－133 dB. May to August was the season with lower levels, and the peak was mainly dominated by the acoustic events at each location. During the construction period of the offshore wind farm in the Changhua area, continuous anthropogenic noise events such as pile driving and vessel machinery caused a significant increase in energy below 500 Hz at nearby locations. At a distance of 15 km from the wind farm, there was also a negative impact causing a reduction of fish vocalizations by 3－5 dB, which may be attributed to the increased shipping noise during the construction period. Shipping noise can interfere with cetacean behavior or have acoustic masking effects. Studies in the Miaoli waters showed that during the ship passage, the Taiwanese humpback dolphin reduced its vocalizations, with the number of whistles and clicks significantly decreased, and the duration of whistles significantly shortened. The median duration of whistles before the ship passage was 0.3 seconds, reduced to 0.22 seconds during the passage, and further reduced to 0.15 seconds after passage. With the large-scale development of offshore wind farms, the impact on marine life behavior needs to be explored as an urgent issue. The "Global Ocean Treaty" sets a target to protect at least 30% of the ocean by 2030 for the conservation of marine biodiversity and sustainable use. Underwater soundscape surveys and monitoring can help obtain baseline ecological data in marine areas. The results of the investigation can be used for communication, education, promoting public participation, and achieving a sustainable marine environment and the goal of biodiversity conservation.