Effects of Sea Salt Aerosol Emissions for Marine Cloud Brightening on Atmospheric Chemistry: Implications for Radiative Forcing

Hannah M. Horowitz; Christopher Holmes; Alicia Wright; Tomás Sherwen; Xuan Wang; Mat Evans; Jiayue Huang; Lyatt Jaeglé; Qianjie Chen; Shuting Zhai; Becky Alexander

doi:10.1029/2019GL085838

Geophysical Research Letters (Feb 2020)

Effects of Sea Salt Aerosol Emissions for Marine Cloud Brightening on Atmospheric Chemistry: Implications for Radiative Forcing

Hannah M. Horowitz,
Christopher Holmes,
Alicia Wright,
Tomás Sherwen,
Xuan Wang,
Mat Evans,
Jiayue Huang,
Lyatt Jaeglé,
Qianjie Chen,
Shuting Zhai,
Becky Alexander

Affiliations

Hannah M. Horowitz: JISAO University of Washington Seattle WA USA
Christopher Holmes: Department of Earth, Ocean and Atmospheric Science Florida State University Tallahassee FL USA
Alicia Wright: Department of Atmospheric Sciences University of Washington Seattle WA USA
Tomás Sherwen: Department of Chemistry University of York York UK
Xuan Wang: School of Energy and Environment City University of Hong Kong Hong Kong
Mat Evans: Department of Chemistry University of York York UK
Jiayue Huang: Department of Atmospheric Sciences University of Washington Seattle WA USA
Lyatt Jaeglé: Department of Atmospheric Sciences University of Washington Seattle WA USA
Qianjie Chen: Department of Atmospheric Sciences University of Washington Seattle WA USA
Shuting Zhai: Department of Atmospheric Sciences University of Washington Seattle WA USA
Becky Alexander: Department of Atmospheric Sciences University of Washington Seattle WA USA

DOI: https://doi.org/10.1029/2019GL085838
Journal volume & issue: Vol. 47, no. 4
pp. n/a – n/a

Abstract

Read online

Abstract Marine cloud brightening (MCB) is proposed to offset global warming by emitting sea salt aerosols to the tropical marine boundary layer, which increases aerosol and cloud albedo. Sea salt aerosol is the main source of tropospheric reactive chlorine (Cly) and bromine (Bry). The effects of additional sea salt on atmospheric chemistry have not been explored. We simulate sea salt aerosol injections for MCB under two scenarios (212–569 Tg/a) in the GEOS‐Chem global chemical transport model, only considering their impacts as a halogen source. Globally, tropospheric Cly and Bry increase (20–40%), leading to decreased ozone (−3 to −6%). Consequently, OH decreases (−3 to −5%), which increases the methane lifetime (3–6%). Our results suggest that the chemistry of the additional sea salt leads to minor total radiative forcing compared to that of the sea salt aerosol itself (~2%) but may have potential implications for surface ozone pollution in tropical coastal regions.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

About the journal

Abstract

Keywords