Photocatalytic Chlorine Atom Production on Mineral Dust-sea Spray Aerosols over the North Atlantic

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2023 Jul 24

PMID 37487065

Authors

Maarten M J W van Herpen

Qinyi Li

Alfonso Saiz-Lopez

Jesper B Liisberg

Thomas Rockmann

Carlos A Cuevas

Rafael P Fernandez

John E Mak

Natalie M Mahowald

Peter Hess

Daphne Meidan

Jan-Berend W Stuut

Matthew S Johnson

Affiliations

Soon will be listed here.

Abstract

Active chlorine in the atmosphere is poorly constrained and so is its role in the oxidation of the potent greenhouse gas methane, causing uncertainty in global methane budgets. We propose a photocatalytic mechanism for chlorine atom production that occurs when Sahara dust mixes with sea spray aerosol. The mechanism is validated by implementation in a global atmospheric model and thereby explaining the episodic, seasonal, and location-dependent C depletion in CO in air samples from Barbados [J.E. Mak, G. Kra, T. Sandomenico, P. Bergamaschi, (2003)], which remained unexplained for decades. The production of Cl can also explain the anomaly in the CO:ethane ratio found at Cape Verde [K. A. Read et al., (2009)], in addition to explaining the observation of elevated HOCl [M. J. Lawler et al., , 7617-7628 (2011)]. Our model finds that 3.8 Tg(Cl) y is produced over the North Atlantic, making it the dominant source of chlorine in the region; globally, chlorine production increases by 41%. The shift in the methane sink budget due to the increased role of Cl means that isotope-constrained top-down models fail to allocate 12 Tg y (2% of total methane emissions) to C-depleted biological sources such as agriculture and wetlands. Since 2014, an increase in North African dust emissions has increased the C isotope of atmospheric CH, thereby partially masking a much greater decline in this isotope, which has implications for the interpretation of the drivers behind the recent increase of methane in the atmosphere.

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