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Unexpected Repartitioning of Stratospheric Inorganic Chlorine After the 2020 Australian Wildfires

S. E. Strahan, Dan Smale, Susan Solomon, Ghassan Taha, Megan Damon, Stephen D. Steenrod, Nicholas Jones, Ben Liley, Richard Querel, John Robinson

2022Geophysical Research Letters27 citationsDOIOpen Access PDF

Abstract

Abstract The inorganic chlorine (Cl y ) and odd nitrogen (NO y ) chemical families influence stratospheric O 3 . In January 2020 Australian wildfires injected record‐breaking amounts of smoke into the southern stratosphere. Within 1–2 months ground‐based and satellite observations showed Cl y and NO y were repartitioned. By May, lower stratospheric HCl columns declined by ∼30% and ClONO 2 columns increased by 40%–50%. The Cl y perturbations began and ended near the equinoxes, increased poleward, and peaked at the winter solstice. NO 2 decreased from February to April, consistent with sulfate aerosol reactions, but returned to typical values by June ‐ months before the Cl y recovery. Transport tracers show that dynamics not chemistry explains most of the observed O 3 decrease after April, with no significant transport earlier. Simulations assuming wildfire smoke behaves identically to sulfate aerosols couldn't reproduce observed Cl y changes, suggesting they have different composition and chemistry. This undermines our ability to predict ozone in a changing climate.

Topics & Concepts

StratosphereAtmospheric sciencesSulfateOzone depletionChlorineOzoneSulfate aerosolAerosolEnvironmental scienceAtmospheric chemistryOzone layerSolsticeClimatologyEnvironmental chemistryChemistryMeteorologyPhysicsLatitudeGeologyOrganic chemistryAstronomyAtmospheric Ozone and ClimateAtmospheric chemistry and aerosolsAtmospheric and Environmental Gas Dynamics
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