Pollution-enhanced reactive chlorine chemistry in the eastern tropical Atlantic boundary layer

M. J. Lawler; B. D. Finley; W. C. Keene; A. A. P. Pszenny; K. A. Read; R. von Glasow; E. S. Saltzman

doi:10.1029/2008GL036666

Pollution-enhanced reactive chlorine chemistry in the eastern tropical Atlantic boundary layer

M. J. Lawler, B. D. Finley, W. C. Keene, A. A. P. Pszenny, K. A. Read, R. von Glasow, E. S. Saltzman

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

This study examines atmospheric reactive chlorine chemistry at the Cape Verde Atmospheric Observatory in the eastern tropical Atlantic. During May - June, 2007, Cl-2 levels ranged from below detection (similar to 2 ppt) to 30 ppt. Elevated Cl-2 was associated with high HNO3 (40 to 120 ppt) in polluted continental outflow transported in the marine boundary layer (MBL) to the site. Lower Cl-2 was observed in recently subsided air masses with multiday free tropospheric oceanic trajectories and in air containing Saharan dust. Model simulations show that the observations of elevated Cl-2 in polluted marine air are consistent with initiation of Cl chemistry by OH + HCl and subsequent heterogeneous, autocatalytic Cl cycling involving marine aerosols. Model estimates suggest that Cl atom reactions significantly impact the fates of methane and dimethylsulfide at Cape Verde and are moderately important for ozone cycling. Citation: Lawler, M. J., B. D. Finley, W. C. Keene, A. A. P. Pszenny, K. A. Read, R. von Glasow, and E. S. Saltzman (2009), Pollution-enhanced reactive chlorine chemistry in the eastern tropical Atlantic boundary layer, Geophys. Res. Lett., 36, L08810, doi: 10.1029/2008GL036666.

Original language	English
Article number	L08810
Pages (from-to)	-
Number of pages	5
Journal	Geophysical Research Letters
Volume	36
Issue number	8
DOIs	https://doi.org/10.1029/2008GL036666
Publication status	Published - 23 Apr 2009

Keywords

SEA-SALT AEROSOL
ATOMIC CHLORINE
OZONE

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title = "Pollution-enhanced reactive chlorine chemistry in the eastern tropical Atlantic boundary layer",

abstract = "This study examines atmospheric reactive chlorine chemistry at the Cape Verde Atmospheric Observatory in the eastern tropical Atlantic. During May - June, 2007, Cl-2 levels ranged from below detection (similar to 2 ppt) to 30 ppt. Elevated Cl-2 was associated with high HNO3 (40 to 120 ppt) in polluted continental outflow transported in the marine boundary layer (MBL) to the site. Lower Cl-2 was observed in recently subsided air masses with multiday free tropospheric oceanic trajectories and in air containing Saharan dust. Model simulations show that the observations of elevated Cl-2 in polluted marine air are consistent with initiation of Cl chemistry by OH + HCl and subsequent heterogeneous, autocatalytic Cl cycling involving marine aerosols. Model estimates suggest that Cl atom reactions significantly impact the fates of methane and dimethylsulfide at Cape Verde and are moderately important for ozone cycling. Citation: Lawler, M. J., B. D. Finley, W. C. Keene, A. A. P. Pszenny, K. A. Read, R. von Glasow, and E. S. Saltzman (2009), Pollution-enhanced reactive chlorine chemistry in the eastern tropical Atlantic boundary layer, Geophys. Res. Lett., 36, L08810, doi: 10.1029/2008GL036666.",

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AU - Lawler, M. J.

AU - Finley, B. D.

AU - Keene, W. C.

AU - Pszenny, A. A. P.

AU - Read, K. A.

AU - von Glasow, R.

AU - Saltzman, E. S.

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N2 - This study examines atmospheric reactive chlorine chemistry at the Cape Verde Atmospheric Observatory in the eastern tropical Atlantic. During May - June, 2007, Cl-2 levels ranged from below detection (similar to 2 ppt) to 30 ppt. Elevated Cl-2 was associated with high HNO3 (40 to 120 ppt) in polluted continental outflow transported in the marine boundary layer (MBL) to the site. Lower Cl-2 was observed in recently subsided air masses with multiday free tropospheric oceanic trajectories and in air containing Saharan dust. Model simulations show that the observations of elevated Cl-2 in polluted marine air are consistent with initiation of Cl chemistry by OH + HCl and subsequent heterogeneous, autocatalytic Cl cycling involving marine aerosols. Model estimates suggest that Cl atom reactions significantly impact the fates of methane and dimethylsulfide at Cape Verde and are moderately important for ozone cycling. Citation: Lawler, M. J., B. D. Finley, W. C. Keene, A. A. P. Pszenny, K. A. Read, R. von Glasow, and E. S. Saltzman (2009), Pollution-enhanced reactive chlorine chemistry in the eastern tropical Atlantic boundary layer, Geophys. Res. Lett., 36, L08810, doi: 10.1029/2008GL036666.

AB - This study examines atmospheric reactive chlorine chemistry at the Cape Verde Atmospheric Observatory in the eastern tropical Atlantic. During May - June, 2007, Cl-2 levels ranged from below detection (similar to 2 ppt) to 30 ppt. Elevated Cl-2 was associated with high HNO3 (40 to 120 ppt) in polluted continental outflow transported in the marine boundary layer (MBL) to the site. Lower Cl-2 was observed in recently subsided air masses with multiday free tropospheric oceanic trajectories and in air containing Saharan dust. Model simulations show that the observations of elevated Cl-2 in polluted marine air are consistent with initiation of Cl chemistry by OH + HCl and subsequent heterogeneous, autocatalytic Cl cycling involving marine aerosols. Model estimates suggest that Cl atom reactions significantly impact the fates of methane and dimethylsulfide at Cape Verde and are moderately important for ozone cycling. Citation: Lawler, M. J., B. D. Finley, W. C. Keene, A. A. P. Pszenny, K. A. Read, R. von Glasow, and E. S. Saltzman (2009), Pollution-enhanced reactive chlorine chemistry in the eastern tropical Atlantic boundary layer, Geophys. Res. Lett., 36, L08810, doi: 10.1029/2008GL036666.

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Pollution-enhanced reactive chlorine chemistry in the eastern tropical Atlantic boundary layer

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Keywords

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