Measurements and Modeling of the Interhemispheric Differences of Atmospheric Chlorinated Very Short-Lived Substances

Roozitalab, Behrooz and Emmons, Louisa K. and Hornbrook, Rebecca S. and Kinnison, Douglas E. and Fernandez, Rafael P. and Li, Qinyi and Saiz-Lopez, Alfonso and Hossaini, Ryan and Cuevas, Carlos A. and Hills, Alan J. and Montzka, Stephen A. and Blake, Donald R. and Brune, William H. and Veres, Patrick R. and Apel, Eric C. (2024) Measurements and Modeling of the Interhemispheric Differences of Atmospheric Chlorinated Very Short-Lived Substances. Journal of Geophysical Research: Atmospheres, 129 (2): e2023JD039. ISSN 2169-897X

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Abstract

Chlorinated very short-lived substances (Cl-VSLS) are ubiquitous in the troposphere and can contribute to the stratospheric chlorine budget. In this study, we present measurements of atmospheric dichloromethane (CH2Cl2), tetrachloroethene (C2Cl4), chloroform (CHCl3), and 1,2-dichloroethane (1,2-DCA) obtained during the National Aeronautics and Space Administration (NASA) Atmospheric Tomography (ATom) global-scale aircraft mission (2016?2018), and use the Community Earth System Model (CESM) updated with recent chlorine chemistry to further investigate their global tropospheric distribution. The measured global average Cl-VSLS mixing ratios, from 0.2 to 13 km altitude, were 46.6 ppt (CH2Cl2), 9.6 ppt (CHCl3), 7.8 ppt (1,2-DCA), and 0.84 ppt (C2Cl4) measured by the NSF NCAR Trace Organic Analyzer (TOGA) during ATom. Both measurements and model show distinct hemispheric gradients with the mean measured Northern to Southern Hemisphere (NH/SH) ratio of 2 or greater for all four Cl-VSLS. In addition, the TOGA profiles over the NH mid-latitudes showed general enhancements in the Pacific basin compared to the Atlantic basin, with up to ?18 ppt difference for CH2Cl2 in the mid troposphere. We tagged regional source emissions of CH2Cl2 and C2Cl4 in the model and found that Asian emissions dominate the global distributions of these species both at the surface (950 hPa) and at high altitudes (150 hPa). Overall, our results confirm relatively high mixing ratios of Cl-VSLS in the UTLS region and show that the CESM model does a reasonable job of simulating their global abundance but we also note the uncertainties with Cl-VSLS emissions and active chlorine sources in the model. These findings will be used to validate future emission inventories and to investigate the fast convective transport of Cl-VSLS to the UTLS region and their impact on stratospheric ozone.

Item Type:
Journal Article
Journal or Publication Title:
Journal of Geophysical Research: Atmospheres
Uncontrolled Keywords:
Research Output Funding/yes_externally_funded
Subjects:
?? chlorinated vslscesmhalogentogaatomch2cl2yes - externally funded ??
ID Code:
213559
Deposited By:
Deposited On:
26 Jan 2024 13:20
Refereed?:
Yes
Published?:
Published
Last Modified:
11 Dec 2024 00:33