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      Variations of ground-level O<sub>3</sub> and its precursors in Beijing in summertime between 2005 and 2011

      , , , , , , , , ,
      Atmospheric Chemistry and Physics
      Copernicus GmbH

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          Abstract

          Elevated ground-level ozone (O<sub>3</sub>), reflecting atmospheric oxidative capacity, are of increasing concern. High levels of total oxidants (O<sub>x</sub>= O<sub>3</sub> + NO<sub>2</sub>) have been persistently observed as a feature of Beijing's air pollution. Beijing is a well-known megacity requiring the enforcement of stringent air quality controls as rapid economic growth continues. To evaluate the effect of air quality controls in recent years, ground-based on-line measurements at an urban site were conducted in summer and the variations in O<sub>3</sub> with simultaneous changes in NO<sub>x</sub> and volatile organic compounds (VOCs) between 2005 and 2011 were analyzed. Both NO<sub>x</sub> and total VOCs in Beijing decreased over the study period, 1.4 ppbv yr<sup>−1</sup> and 1.6 ppbv yr<sup>−1</sup>, respectively. However, VOCs reactivity, in terms of OH loss rate, showed an indistinct statistical trend due to unsteady variations from naturally emitted isoprene, though some anthropogenic species showed decreasing trends, such as pentane, benzene and toluene. Meanwhile, daytime average O<sub>3</sub> increased rapidly at an annual rate of 2.6 ppbv yr<sup>−1</sup>, around 5% yr<sup>−1</sup> between 2005 and 2011. Considering the influence of NO titration effect and elevated regional ozone background in the North China Plain (NCP), the main reason for such an increase in oxidants was subject to "local" photochemistry. A simplified model was used to evaluate the effect of changes in the levels of ozone precursors on ozone production. We found that between 2001 and 2006, the production rate of total oxidants, <i>P</i>(O<sub>x</sub>) increased rapidly due to increased VOC levels and decreasing NO<sub>2</sub>, while from 2006 to 2011 <i>P</i>(O<sub>x</sub>) remained high, though decreased slightly as a consequence of the decrease in both VOC reactivity (−5% yr<sup>−1</sup>) and NO<sub>x</sub> (−4% yr<sup>−1</sup>). Observations have shown that Beijing's efforts to control air pollution were somehow effective in cutting ozone precursors, but still left higher ground-level ozone. We surmised that it resulted from potential contributions from OVOCs and regional transport near Beijing. Therefore, Beijing needs deeper cooperation with adjacent provinces to control ozone pollution together. To impel this kind of joint prevention and control program, ground-level ozone should become a mandatory index for air quality management, and a faster reduction of VOCs, especially reactive VOCs, in urban areas, should coordinate with national NO<sub>x</sub> emission control programs.

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          Author and article information

          Journal
          Atmospheric Chemistry and Physics
          Atmos. Chem. Phys.
          Copernicus GmbH
          1680-7324
          2014
          June 20 2014
          : 14
          : 12
          : 6089-6101
          Article
          10.5194/acp-14-6089-2014
          ec4b4edf-a672-4a3c-9263-46aa6de37384
          © 2014

          http://creativecommons.org/licenses/by/3.0/

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