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Dynamical and Trace Gas Responses of the Quasi‐Biennial Oscillation to Increased CO<sub>2</sub>

Kevin DallaSanta, Clara Orbe, David Rind, Larissa Nazarenko, J. Jonas

2021Journal of Geophysical Research Atmospheres35 citationsDOI

Abstract

Abstract Long‐term projections of the Quasi‐Biennial Oscillation (QBO) remain uncertain. Using the high‐top “Middle Atmosphere” (MA) version of the NASA Goddard Institute for Space Studies (GISS) ModelE (E2.2‐AP), we show that increased CO 2 reduces the QBO period and weakens its amplitude, consistent with results from recent multimodel studies. The amplitude response is asymmetric, with the easterly phase weakening more than the westerly phase. Results from both coupled atmosphere‐ocean and climatologically fixed sea surface temperature simulations link the period response to changes in parameterized convective gravity wave fluxes, whereas the amplitude changes are more closely tied to changes in tropical upwelling. Comparisons of simulations with and without ozone‐dynamical feedbacks reveal that ozone feedbacks increase the QBO amplitude and period in pre‐industrial control simulations, and reduce the response of the amplitude to increased CO 2 . The response of stratospheric tracers to projected changes in the QBO is also investigated. Similarity between results using fully interactive (trace gas and aerosol) versus linearized ozone chemical mechanisms suggests that the QBO response to CO 2 does not depend on additional chemical feedbacks beyond those associated with ozone, which implies that projected QBO changes may be credibly represented using simplified stratospheric ozone schemes.

Topics & Concepts

Quasi-biennial oscillationAmplitudeTrace gasAtmospheric sciencesStratosphereAtmosphere (unit)UpwellingOzone layerOzoneEnvironmental scienceOscillation (cell signaling)ClimatologyMeteorologyPhysicsGeologyChemistryOceanographyBiochemistryQuantum mechanicsAtmospheric Ozone and ClimateClimate variability and modelsAtmospheric and Environmental Gas Dynamics
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