To mitigate the surface ozone (O<sub>3</sub>) pollution in Southeast Asia, a full understanding of the processes and contributions of precursor emissions [i.e., volatile organic compounds (VOCs) and nitrogen oxides (NO<sub>x</sub>)] to O<sub>3</sub> is required but remains unclear. This study applied an adjoint sensitivity model to evaluate the source-receptor (S-R) relationship between O<sub>3</sub> and the precursors, as well as the source contributions over different receptor regions in Southeast Asia. The process analysis was performed to further characterize O<sub>3</sub> formation. We found a predominant NO<sub>x</sub>-limited O<sub>3</sub> formation regime across Southeast Asia due to substantial regional biogenic VOC emissions, with exceptions in areas where anthropogenic NO<sub>x</sub> emissions were significant, such as Singapore, Jakarta, Bangkok, and the Malacca Straits. NO<sub>x</sub> was identified as the primary contributor to the surface O<sub>3</sub>, whereas VOCs contributed positively to VOC-limited regions but negatively to NO<sub>x</sub>-limited areas. Additionally, regional and super-regional transboundary air pollution accounted for 56–98 % of surface O<sub>3</sub> concentration across Southeast Asian countries. The findings highlighted the need for differentiated O<sub>3</sub> mitigation strategies in Southeast Asia, combining coordinated regional NO<sub>x</sub> emission reductions with targeted VOC controls in the VOC-limited urban areas.