Articles | Volume 16, issue 7
https://doi.org/10.5194/acp-16-4323-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
https://doi.org/10.5194/acp-16-4323-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Summertime ozone formation in Xi'an and surrounding areas, China
Tian Feng
School of Human Settlements and Civil Engineering, Xi'an Jiaotong
University, Xi'an, China
Key Laboratory of Aerosol Chemistry and Physics, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
State Key Laboratory of Loess and Quaternary Geology, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
Naifang Bei
School of Human Settlements and Civil Engineering, Xi'an Jiaotong
University, Xi'an, China
Key Laboratory of Aerosol Chemistry and Physics, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
Ru-Jin Huang
Key Laboratory of Aerosol Chemistry and Physics, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
Laboratory of Atmospheric Chemistry, Paul Scherrer Institute (PSI),
Villigen, Switzerland
Junji Cao
Key Laboratory of Aerosol Chemistry and Physics, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
State Key Laboratory of Loess and Quaternary Geology, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
Qiang Zhang
Department of Environmental Sciences and Engineering, Tsinghua
University, Beijing, China
Weijian Zhou
State Key Laboratory of Loess and Quaternary Geology, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
Xuexi Tie
Key Laboratory of Aerosol Chemistry and Physics, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
State Key Laboratory of Loess and Quaternary Geology, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
Suixin Liu
Key Laboratory of Aerosol Chemistry and Physics, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
State Key Laboratory of Loess and Quaternary Geology, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
Ting Zhang
Key Laboratory of Aerosol Chemistry and Physics, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
State Key Laboratory of Loess and Quaternary Geology, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
Xiaoli Su
Key Laboratory of Aerosol Chemistry and Physics, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
State Key Laboratory of Loess and Quaternary Geology, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
Wenfang Lei
Molina Center for Energy and the Environment, La Jolla, CA, USA
Luisa T. Molina
Molina Center for Energy and the Environment, La Jolla, CA, USA
Guohui Li
CORRESPONDING AUTHOR
Key Laboratory of Aerosol Chemistry and Physics, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
State Key Laboratory of Loess and Quaternary Geology, Institute of Earth
Environment, Chinese Academy of Sciences, Xi'an, China
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Latest update: 24 Dec 2024
Short summary
The occurrence of high O3 levels with high PM2.5 concentrations constitutes a dilemma for the design of O3 control strategies in Xi’an and surrounding areas. If the O3 mitigation approach decreases aerosols in the atmosphere directly or indirectly, the enhanced photolysis caused by aerosol reduction would compensate for the O3 loss. If only the PM2.5 control strategy is implemented, the O3 pollution will decrease.
The occurrence of high O3 levels with high PM2.5 concentrations constitutes a dilemma for the...
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