This study applied observational data, theoretical anlysis and numerical model to analyze the trends of surface ozone in Taiwan. The measurement data showed an increasing trend of surface ozone concentration with a rate of 0.7±1.1ppb per year while other pollutants were decreasing from 1994 to 2003. A long-range transport analysis showed that background ozone has an increasing trend of 0.7±3.5 ppb per year. According to the mass balance equation, the change of pollutant concentration involves emission, mixing layer height, photochemical processes, and advection. The characteristic time of photochemistry of ozone is 102-104 seconds, and the characteristic time of advection, vertical diffusion, and dry deposition are about 104-106 seconds. Therefore, photochemistry affects the ozone level more rapidly than other factors. When NO concentration decreases and wind speed becomes stronger, advection could be an effective factor. Simulation results from a one-dimensional model showed that the results of ozone photochemistry are significantly influence under high NO/NO2 ratio, and a decrease in NOX emission, which gives lower local NO/NO2 ratio may enhance the ozone concentration due to a weaker titration effect. However, during the evening when there is no photochemical production, the major factor influencing ozone concentration is the advection process. So the local ozone concentration at the pollution center increases with increasing wind speed due to higher background ozone concentration. In summary, the increasing ozone trend in Taiwan was mainly due to reduce emission resulting in a weakened titration effect, as well as an increase in background ozone concentration that gives to stronger advection effect.