The purpose of this study is to investigate the emission, dispersion, transport and deposition of sulfur compounds in East Asia for the year of 2001 using the HYSPLIT (Hybrid Single-Practice Lagrangian Integrated Trajectory) model. The contribution of sulfur deposition via long range to Taiwan was also assessed. Model results show that wet deposition pathway contributed about 58.2% of the total sulfur deposition in East Asia (95°E-145°E, 10°N-40°N). Sulfur dry deposition is higher than wet deposition in East Asian continent, and vice versa for island areas. Model results indicate that sulfur dry deposition was significantly correlated with source region. The location of maximum dry deposition remained at the same area regardless of seasonal change. The trend of sulfur dry deposition was opposite to that of precipitation. Sulfur wet deposition was influenced by precipitation and emission and it had a positive correlation with the former. The comparison between the simulation and observation of sulfur deposition indicated that both were close for the northern Taiwan but the former was much lower than the latter for the southern Taiwan in the months of May-September. Sulfur wet deposition in Taiwan was strongly affected through the long-range transport, depending on various weather conditions. Under the type of northeast monsoon, the contribution via the long-range transport to wet deposition was the largest and followed by the type of fall/winter frontal precipitation.