Litcius/Paper detail

QBO Phase Synchronization in CMIP6 Historical Simulations Attributed to Ozone Forcing

Neal Butchart, Martin B. Andrews, Chris Jones

2023Geophysical Research Letters10 citationsDOIOpen Access PDF

Abstract

Abstract Tropical stratospheric variability is investigated in ensembles of historical simulations performed by nine models for the sixth phase of the Coupled Model Intercomparison Project (CMIP6). Realizations from all the models feature a reasonable quasi‐biennial oscillation (QBO). Variability in the zonal mean zonal winds at the equator is found to be coherent among realizations when a model prescribes the CMIP6 ozone forcing. No such coherence is found when a model simulates ozone. The coherence results in an ensemble mean QBO signal with amplitude, depending on the model, 50%–80% of the mean QBO amplitude from a single realization from the same model. The ensemble mean signal is due to synchronization of QBO phases, attributed to the CMIP6 protocol including a QBO signal in the ozone forcing. Coherence in models using the CMIP6 ozone is, therefore, artificial and individual realizations from these models are not completely independent.

Topics & Concepts

Quasi-biennial oscillationForcing (mathematics)Coherence (philosophical gambling strategy)Coupled model intercomparison projectAmplitudeClimatologyStratosphereEquatorEnvironmental scienceAtmospheric sciencesMeteorologyPhysicsClimate modelGeologyLatitudeClimate changeAstronomyQuantum mechanicsOceanographyClimate variability and modelsAtmospheric Ozone and ClimateMeteorological Phenomena and Simulations