4.7 Article

Impact of the vertical mixing induced by low-level jets on boundary layer ozone concentration

期刊

ATMOSPHERIC ENVIRONMENT
卷 70, 期 -, 页码 123-130

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.atmosenv.2012.12.046

关键词

Ozonesonde; Low-level jet; Atmospheric boundary layer; Ozone; WRF/Chem; Residual layer

资金

  1. Office of the Vice President for Research at the University of Oklahoma
  2. NSF ILREUM [NSF ATM 0547882]
  3. NASA [NNX08BA42A]
  4. National Science Foundation [ATM 0914597]
  5. Maryland Department of the Environment, NASA [NNX08BA42A]
  6. NOAA [NA17AE1625]
  7. NASA [90524, NNX08BA42A] Funding Source: Federal RePORTER

向作者/读者索取更多资源

After sunset, a stable boundary layer (SBL) develops close to the ground, while the upper region of the daytime mixed layer becomes the residual layer (RL). Mixing between the SBL and RL is often quite limited and the RL is thought to be a reservoir for daytime mixed-layer pollutants under such conditions. However, ozone (O-3) profiles observed in Maryland, U.S. suggest that the RL is not always a reservoir of O-3 in that region. Nocturnal low-level jets (LLJs) and/or other mechanisms are speculated to enhance vertical mixing between the SBL and RI, which influences the vertical O(3)redistribution. Nocturnal surface O-3 maxima, an RL with reduced O-3 levels, and a concurrent strong LLJ were observed in Maryland on the night of August 9-10, 2010. Surface O-3 measurements in the region and three-dimensional air quality simulations suggest that horizontal advection cannot explain the nocturnal O-3 maxima and concurrent decrease of O-3 levels within the RL. A sensitivity study with a single column (1D) chemistry model was performed to investigate the role of LLJs in generating turbulent mixing within the nighttime boundary layer and to identify related impacts on O-3 concentrations at night and on the following day. The strong shear associated with the LLJ enhanced turbulent mixing and weakened the decoupling of the RL and SBL substantially. Ozone was actively mixed down from the RL to the surface, causing secondary nocturnal surface O-3 maxima. Near the surface, O-3 was efficiently removed by chemical reactions and dry deposition, which resulted in lower O-3 peak values on the next day. (C) 2013 Elsevier Ltd. All rights reserved.

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