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<p>To understand the characteristics and changes of baseline ozone (O<span class="inline-formula">₃</span>) in oceanic air in eastern China, a 6-year measurement of O<span class="inline-formula">₃</span> concentration was conducted from 1 January 2012 to 15 September 2017 at a remote offshore station located on Sheshan Island (SSI) near the megacity of Shanghai. The observed monthly mean O<span class="inline-formula">₃</span> concentrations at SSI ranged from 33.4 to 61.4&thinsp;ppbv during the study period, which were about 80&thinsp;% and 12&thinsp;% higher, respectively, than those measured at downtown and rural sites in Shanghai. Compared to the remarkable O<span class="inline-formula">₃</span> increases observed at urban and rural sites in Shanghai, observed O<span class="inline-formula">₃</span> concentrations at SSI exhibited statistically insignificant increasing changes (1.12&thinsp;ppbv&thinsp;yr<span class="inline-formula">⁻¹</span>, <span class="inline-formula"><i>α</i><i>&gt;</i>0.10</span>) during the observation period, suggesting less impacts of anthropogenic emissions on O<span class="inline-formula">₃</span> levels in oceanic air. In addition, an insignificant decreasing change (<span class="inline-formula">−</span>0.72&thinsp;ppbv&thinsp;yr<span class="inline-formula">⁻¹</span>, <span class="inline-formula"><i>α</i><i>&gt;</i>0.10</span>) was detected in O<span class="inline-formula">₃</span> concentrations at SSI in September and October when the influence of regional transport was minimum throughout the year, providing a good proxy to study the baseline oxidation capacity of the oceanic atmosphere. City plumes from Shanghai usually carried higher levels of NO<span class="inline-formula">_<i>x</i></span>, resulting in decreased O<span class="inline-formula">₃</span> concentrations at SSI during southwesterly and westerly winds. However, In MAM (March–May) and JJA (June–August), due to the enhanced production of oxygenated volatile organic compounds, O<span class="inline-formula">₃</span> could be continuously produced during daytime in aged city plumes, resulting in elevated O<span class="inline-formula">₃</span> concentrations transported to SSI. The impacts of the offshore O<span class="inline-formula">₃</span> on O<span class="inline-formula">₃</span> levels in Shanghai are quantified during an easterly wind dominant episode (1–30 September 2014) using the WRF-Chem model (Weather Research and Forecasting model coupled with Chemistry). Sensitivity results suggest that O<span class="inline-formula">₃</span> in the oceanic air inflows can lead to 20&thinsp;%–30&thinsp;% increases in urban O<span class="inline-formula">₃</span> concentrations, which should be crucially considered in dealing with urban O<span class="inline-formula">₃</span> pollution in large coastal cities like Shanghai.</p>