The effect of lightning NO<sub>x</sub> production on surface ozone in the continental United States

The effect of lightning NO<sub>x</sub> production on surface ozone in the continental United States

Lightning NO<sub>x</sub> emissions calculated using the US National Lightning Detection Network data were found to account for 30% of the total NO<sub>x</sub> emissions for July–August 2004, a period chosen both for having higher lightning NO<sub>x</sub> productio...

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Main Authors: Y. Choi, A. G. Russell, R. V. Martin, Y. Hu, B. Kaynak, Y. Wang
Format: Article
Language:English
Published: Copernicus Publications 2008-09-01
Series:Atmospheric Chemistry and Physics
Online Access:http://www.atmos-chem-phys.net/8/5151/2008/acp-8-5151-2008.pdf
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spelling doaj-77f6de9a45504928b8cbf5af6ae4b8c32020-11-24T23:37:24ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242008-09-0181751515159The effect of lightning NO<sub>x</sub> production on surface ozone in the continental United StatesY. ChoiA. G. RussellR. V. MartinY. HuB. KaynakY. WangLightning NO<sub>x</sub> emissions calculated using the US National Lightning Detection Network data were found to account for 30% of the total NO<sub>x</sub> emissions for July–August 2004, a period chosen both for having higher lightning NO<sub>x</sub> production and high ozone levels, thus maximizing the likelihood that such emissions could impact peak ozone levels. Including such emissions led to modest, but sometimes significant increases in simulated surface ozone when using the Community Multi-scale Air Quality Model (CMAQ). Three model simulations were performed, two with the addition of lightning NO<sub>x</sub> emissions, and one without. Domain-wide daily maximum 8-h ozone changes due to lightning NO<sub>x</sub> were less than 2 ppbv in 71% of the cases with a maximum of 10 ppbv; whereas the difference in 1-h ozone was less than 2 ppbv in 77% of the cases with a maximum of 6 ppbv. Daily maximum 1-h and 8-h ozone for grids containing O<sub>3</sub> monitoring stations changed slightly, with more than 43% of the cases differing less than 2 ppbv. The greatest differences were 42 ppbv for both 1-h and 8-h O<sub>3</sub>, though these tended to be on days of lower ozone. Lightning impacts on the season-wide maximum 1-h and 8-h averaged ozone decreased starting from the 1st to 4th highest values (an average of 4th highest, 8-h values is used for attainment demonstration in the US). Background ozone values from the y-intercept of O<sub>3</sub> versus NO<sub>z</sub> curve were 42.2 and 43.9 ppbv for simulations without and with lightning emissions, respectively. Results from both simulations with lightning NO<sub>x</sub> suggest that while North American lightning production of NO<sub>x</sub> can lead to significant local impacts on a few occasions, they will have a relatively small impact on typical maximum levels and determination of Policy Relevant Background levels. http://www.atmos-chem-phys.net/8/5151/2008/acp-8-5151-2008.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Y. Choi
A. G. Russell
R. V. Martin
Y. Hu
B. Kaynak
Y. Wang
spellingShingle Y. Choi
A. G. Russell
R. V. Martin
Y. Hu
B. Kaynak
Y. Wang
The effect of lightning NO<sub>x</sub> production on surface ozone in the continental United States
Atmospheric Chemistry and Physics
author_facet Y. Choi
A. G. Russell
R. V. Martin
Y. Hu
B. Kaynak
Y. Wang
author_sort Y. Choi
title The effect of lightning NO<sub>x</sub> production on surface ozone in the continental United States
title_short The effect of lightning NO<sub>x</sub> production on surface ozone in the continental United States
title_full The effect of lightning NO<sub>x</sub> production on surface ozone in the continental United States
title_fullStr The effect of lightning NO<sub>x</sub> production on surface ozone in the continental United States
title_full_unstemmed The effect of lightning NO<sub>x</sub> production on surface ozone in the continental United States
title_sort effect of lightning no<sub>x</sub> production on surface ozone in the continental united states
publisher Copernicus Publications
series Atmospheric Chemistry and Physics
issn 1680-7316
1680-7324
publishDate 2008-09-01
description Lightning NO<sub>x</sub> emissions calculated using the US National Lightning Detection Network data were found to account for 30% of the total NO<sub>x</sub> emissions for July–August 2004, a period chosen both for having higher lightning NO<sub>x</sub> production and high ozone levels, thus maximizing the likelihood that such emissions could impact peak ozone levels. Including such emissions led to modest, but sometimes significant increases in simulated surface ozone when using the Community Multi-scale Air Quality Model (CMAQ). Three model simulations were performed, two with the addition of lightning NO<sub>x</sub> emissions, and one without. Domain-wide daily maximum 8-h ozone changes due to lightning NO<sub>x</sub> were less than 2 ppbv in 71% of the cases with a maximum of 10 ppbv; whereas the difference in 1-h ozone was less than 2 ppbv in 77% of the cases with a maximum of 6 ppbv. Daily maximum 1-h and 8-h ozone for grids containing O<sub>3</sub> monitoring stations changed slightly, with more than 43% of the cases differing less than 2 ppbv. The greatest differences were 42 ppbv for both 1-h and 8-h O<sub>3</sub>, though these tended to be on days of lower ozone. Lightning impacts on the season-wide maximum 1-h and 8-h averaged ozone decreased starting from the 1st to 4th highest values (an average of 4th highest, 8-h values is used for attainment demonstration in the US). Background ozone values from the y-intercept of O<sub>3</sub> versus NO<sub>z</sub> curve were 42.2 and 43.9 ppbv for simulations without and with lightning emissions, respectively. Results from both simulations with lightning NO<sub>x</sub> suggest that while North American lightning production of NO<sub>x</sub> can lead to significant local impacts on a few occasions, they will have a relatively small impact on typical maximum levels and determination of Policy Relevant Background levels.
url http://www.atmos-chem-phys.net/8/5151/2008/acp-8-5151-2008.pdf
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