Department of Earth System Science

Photolytic dissociation of molecular oxygen (O₂) at wavelengths about 205 nm produces ozone (O₃) in the upper tropical troposphere. In tropospheric chemistry models that ignore this process, the O₃ abundance above 14 km in the tropics (a.k.a. Tropopause Transition Layer) is underestimated by 5 to 20 ppb. Even for models including O₂ photolysis, uncertainty in the O₂ cross sections yields similar uncertainty in TTL O₃. The related impact on global atmospheric chemistry is small, i.e., ±0.2% in CO and CH₄ budgets, but the change in the O₃ column, ±1.6 DU in the tropics, may be important in calculating heating rates and climate forcing.