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Changing Responses of PM 2.5 and Ozone to Source Emissions in the Yangtze River Delta Using the Adjoint Model.

Weiyang HuYu ZhaoNi LuXiaolin WangBo ZhengDaven K HenzeLin ZhangTzung-May FuShixian Zhai
Published in: Environmental science & technology (2023)
China's industrial restructuring and pollution controls have altered the contributions of individual sources to varying air quality over the past decade. We used the GEOS-Chem adjoint model and investigated the changing sensitivities of PM 2.5 and ozone (O 3 ) to multiple species and sources from 2010 to 2020 in the central Yangtze River Delta (YRDC), the largest economic region in China. Controlling primary particles and SO 2 from industrial and residential sectors dominated PM 2.5 decline, and reducing CO from multiple sources and ≥C 3 alkenes from vehicles restrained O 3 . The chemical regime of O 3 formation became less VOC-limited, attributable to continuous NO X abatement for specific sources, including power plants, industrial combustion, cement production, and off-road traffic. Regional transport was found to be increasingly influential on PM 2.5 . To further improve air quality, management of agricultural activities to reduce NH 3 is essential for alleviating PM 2.5 pollution, while controlling aromatics, alkenes, and alkanes from industry and gasoline vehicles is effective for O 3 . Reducing the level of NO X from nearby industrial combustion and transportation is helpful for both species. Our findings reveal the complexity of coordinating control of PM 2.5 and O 3 pollution in a fast-developing region and support science-based policymaking for other regions with similar air pollution problems.
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