Dr. Efi Rousi Profile picture
Dec 30, 2020 11 tweets 5 min read Read on X
Our paper “Changes in North Atlantic atmospheric circulation in a warmer climate favor winter flooding and summer drought over Europe” is now released online in Journal of Climate: journals.ametsoc.org/view/journals/… (written with F. Selten, @rahmstorf and @DimCoumou, fyi @PIK_Climate).
This is a thread explaining the main findings. We used a very high resolution climate model (GFDL CM2.6: gfdl.noaa.gov/cm2-6/) to assess changes in atmospheric circulation patterns under an experiment of increasing carbon dioxide concentrations. (1)
The high resolution of the model allows for mesoscale oceanic eddies to be resolved and it has a realistic representation of the AMOC. This is important for the ocean-atmosphere interactions that play a significant role in forming the dominant atmospheric circulation patterns (2)
In order to study changes in atmospheric circulation due to CO2 increase we compared 2 different experiments of the model: one with stable pre-industrial CO2 concentrations (PI) and one with increasing CO2 by 1% per year (2xCO2) (3) Image
By applying a clustering algorithm and strict subsampling to account for the internal variability we find robust changes in certain atmospheric circulation patterns over the North Atlantic (figure here shows the four commonly used N. Atlantic weather regimes). (4) Image
In winter (and particularly in February), zonal regimes (NAO+ like) are increasing by ~30% in frequency in the 2xCO2. In summer (and particularly in August), Atlantic Ridge, a high-pressure system off the UK coast, is increasing by ~60%. (5) Image
Those robust changes in a warmer world may have great implications for European climate. In winter the increase of zonal circulation is linked to increased rainfall over northwestern Europe, increasing the risk of flooding in the area. (6) Image
In summer, the increase of the AR is linked to less precipitation and longer dry spells over western and central Europe, contributing to higher drought risk. Those dynamical changes act supplementary to the thermodynamic effects of a warming world, exacerbating the impacts. (7) Image
To summarize, studying dynamical changes in atmospheric circulation is tricky due to model biases in its representation and to the sensitivity to the method used to define circulation patterns, which is also linked to the large internal atmospheric variability. (8)
In this work, the combination of a very high resolution model and a strict method that accounts for the uncertainties gives high confidence in the results. The robust changes we find are in agreement with previous studies documenting similar changes in a warming world. (9)
Our paper is now published in #JClimate (@AMSJCLi) in its final form: journals.ametsoc.org/view/journals/…, take a look at the thread above for a brief description of the main findings. (10)

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