Abstract. We estimated the source-receptor relationship for surface O₃ in East Asia during the early 2000s using a method that tags O₃ tracers according to their region of chemical production (tagged tracer method) with a global chemical transport model. The estimation demonstrated the importance of intracontinental transport of O₃ inside East Asia as well as of the transport of O₃ from distant source regions. The model well simulated the absolute concentration and seasonal variation of surface O₃ in East Asia and demonstrated significant seasonal differences in the origin of surface O₃. In the cold season (October to March), more than half of surface O₃ in East Asia is attributable to the O₃ transported from distant sources outside of East Asia. In the warm season (April to September), most of the surface O₃ is attributable to O₃ created within East Asia in most areas of East Asia. In spring the contribution of domestically created O₃ accounted for 20% of the surface O₃ in Japan and the Korean Peninsula, 40% in the North China Plain, and around 50% in the southern part of China, and the domestic contribution increased greatly in summer. The contributions of O₃ created in China and the Korean Peninsula to O₃ in Japan were estimated at about 10% and 5%, respectively. We also demonstrated a large contribution (20%) from China to the Korean Peninsula. In the northern and southern parts of China, large contributions of over 10% from East Siberia and the Indochina Peninsula, respectively, were identified. The contribution from intercontinental transport increased with latitude; it was 21% in Northeast China and 13% in Japan and the Korean Peninsula in spring. As for the hourly mean of surface O₃, domestically created O₃ was the main contributor in most areas of East Asia, except for the low O₃ class (<30 ppbv), and accounted for more than 50% in the very high O₃ class (>90 ppbv). The mean relative contribution of O₃ created in China to O₃ in central Japan was about 10% in every class, but that created in the Korean Peninsula was significant in all except the low O₃ class. We identified the substantial impact of foreign sources on Japan's ambient air quality standard in the high O₃ class (60–90 ppbv) in spring.