Injection strategy - a driver of atmospheric circulation and ozone response to stratospheric aerosol geoengineering

Despite offsetting global mean surface temperature, various studies demonstrated that stratospheric aerosol injection (SAI) could influence the recovery of stratospheric ozone and have important impacts on stratospheric and tropospheric circulation, thereby potentially playing an important role in modulating regional and seasonal climate variability. However, so far, most of the assessments of such an approach have come from climate model simulations in which SO 2 is injected only in a single location or a set of locations.Here we use CESM2-WACCM6 SAI simulations under a comprehensive set of SAI strategies achieving the same global mean surface temperature with different locations and/or timing of injections, namely an equatorial injection, an annual injection of equal amounts of SO 2 at 15 circle N and 15 circle S, an annual injection of equal amounts of SO 2 at 30 circle N and 30 circle S, and a polar strategy injecting SO 2 at 60 circle N and 60 circle S only in spring in each hemisphere.We demonstrate that despite achieving the same global mean surface temperature, the different strategies result in contrastingly different magnitudes of the aerosol-induced lower stratospheric warming, stratospheric moistening, strengthening of stratospheric polar jets in both hemispheres, and changes in the speed of the residual circulation. These impacts tend to maximise under the equatorial injection strategy and become smaller as the aerosols are injected away from the Equator into the subtropics and higher latitudes. In conjunction with the differences in direct radiative impacts at the surface, these different stratospheric changes drive different impacts on the extratropical modes of variability (Northern and Southern Annular modes), including important consequences on the northern winter surface climate, and on the intensity of tropical tropospheric Walker and Hadley circulations, which drive tropical precipitation patterns. Finally, we demonstrate that the choice of injection strategy also plays a first-order role in the future evolution of stratospheric ozone under SAI throughout the globe. Overall, our results contribute to an increased understanding of the fine interplay of various radiative, dynamical, and chemical processes driving the atmospheric circulation and ozone response to SAI and lay the foundation for designing an optimal SAI strategy that could form a basis of future multi-model intercomparisons.

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Related Dataset #1 : Data from: "Injection strategy - a driver of atmospheric circulation and ozone response to stratospheric aerosol geoengineering" by Bednarz et al. (2023)

Related Service #1 : Cheyenne: SGI ICE XA Cluster

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Author Bednarz, E. M.
Butler, A. H.
Visioni, Daniele
Zhang, Y.
Kravitz, B.
MacMartin, D. G.
Publisher UCAR/NCAR - Library
Publication Date 2023-11-03T00:00:00
Digital Object Identifier (DOI) Not Assigned
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Topic Category geoscientificInformation
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Metadata Date 2025-07-11T15:12:59.623546
Metadata Record Identifier edu.ucar.opensky::articles:27033
Metadata Language eng; USA
Suggested Citation Bednarz, E. M., Butler, A. H., Visioni, Daniele, Zhang, Y., Kravitz, B., MacMartin, D. G.. (2023). Injection strategy - a driver of atmospheric circulation and ozone response to stratospheric aerosol geoengineering. UCAR/NCAR - Library. https://n2t.org/ark:/85065/d7154n67. Accessed 02 August 2025.

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