A regime perspective on jet and blocking dynamics in CMIP6
- University of Oxford, Atmospheric, Oceanic, and Planetary Physics, United Kingdom of Great Britain – England, Scotland, Wales (joshua.dorrington@physics.ox.ac.uk)
Weather over the Euro-Atlantic region during winter is highly variable, with rich and chaotic internal atmospheric dynamics. In particular, the non-linear breaking of Rossby waves irreversibly mixes potential vorticity contours and so triggers shifts in the latitude of the eddy driven jet and establishes persistent anticyclonic blocking events. The concept of atmospheric regimes captures the tendency for blocks – and for the jet – to persist in a small number of preferred locations. Regimes then provide a non-linear basis through which model deficiencies, interdecadal variability and forced trends in the Euro-Atlantic circulation can be studied.
A drawback of past regime approaches is that they were unable to easily capture both the dynamics of the jet and of blocking anticyclones simultaneously. In this work we apply a recently developed regime framework, which is able to capture both these important aspects while reducing sampling variability, to the CMIP6 climate model ensemble. We analyse both the historical variability and biases of blocking and jet structure in this latest generation of climate models, and make new estimates of the anthropogenic forced trend over the coming century.
How to cite: Dorrington, J.: A regime perspective on jet and blocking dynamics in CMIP6, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-919, https://doi.org/10.5194/egusphere-egu21-919, 2021.