Impacts of ENSO on wintertime total column ozone over the Tibetan Plateau based on the historical simulations of community Earth system model

The ozone over the Tibetan Plateau(TP) plays an important role in protecting the local ecology by absorbing ultraviolet solar rays. The El Ni?o-Southern Oscillation(ENSO), recognized as the strongest interannual climate phenomenon globally, can create ozone variations over the TP. Based on the historical experimental simulation results of two Community Earth System Models(i.e. CESM2-WACCM and CESM2-WACCM-FV2) that include the coupling process of stratospheric chemistry-radiation-dynamics, this study analyzes the impact of ENSO on the wintertime total ozone column(TCO) over the TP, as well as its physical processes, from 1979 to 2014. When compared to observations, the results show that the two models can basically simulate the spatial distribution of the climate state and standard deviation of the TP TCO. In the two models, CESM2-WACCM performs better. During the winter when the ENSO signal is strongest, its warm phase, El Ni?o, cools the tropospheric temperature over the TP by modifying the atmospheric circulation, which induces a decrease in the tropopause height. Such decreases in the tropopause height are responsible for the TP TCO increase. The cool phase La Ni?a is responsible for a TCO decrease over the TP, in a manner resembling the El Ni?o but with the opposite signal. Our results are consistent with previous observational analysis, and the relevant research provides valuable scientific insights for evaluating and improving the Earth System Model that incorporates the coupling process of stratospheric chemistry-radiation-dynamics.