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Dr. Amy H Butler Profile picture
@DrAHButler
Sep 16, 2022 9 tweets 6 min read Read on X
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1-How will the stratospheric #polarvortex respond to #climate change? Bottom line: we have no idea. A 🧵on a new paper out by Alexey Karpechko, @HillaA1, me, @Domeisen_D, @Marlene_Climate, @zd1awrence, E. Manzini, @michaelsigmond, @IslaSimpson4, and Z. Wu: agupubs.onlinelibrary.wiley.com/doi/10.1029/20…
2- There is no agreement across #CMIP6 models in the magnitude or even sign of the polar vortex response to climate change, though the magnitude of any individual model response tends to increase with the magnitude of climate warming. Image
3- Individual models tend to show the same signed response of the #polarvortex regardless of greenhouse gas scenario. This implies that differences in the model physics/configurations are likely causing the disagreement across models. Image
4- In fact, by the end of the century, model uncertainty dominates over internal variability as the main source of uncertainty in the #CMIP6 #polarvortex response. Image
5- While the response of the strength of the polar vortex is completely disparate across models, surprisingly almost all models (>95%) show an eastward shift of the #polarvortex that scales with GHG scenario. Image
6- Why does it matter that we don’t know whether the #polarvortex will strengthen or weaken in the future? Because the uncertainty in the polar vortex response is associated with significant uncertainty in the #climate response at the surface. Image
7- After regressing out the global mean temp response, up to 20% of the spread in projected 2m temps over the western US and up to 30% over Northern Eurasia can be associated with the uncertainty in the projected #polarvortex strength. Image
8- Thanks again to Alexey Karpechko for leading this analysis, which was a collaboration brought forth by the @WCRP_SPARC DynVar initiative.
Just realized I should have been more specific- these results are for the Northern Hemisphere!

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More from @DrAHButler

Dr. Amy H Butler Profile picture
Jul 30
(1/n) An unprecedented wave-2 event has been unfolding in the Southern Hemisphere polar stratosphere, with all-time record amplitudes of wave-2 during a time of year that is often quiet in the SH #polarvortex. Image
Image
(2/n) The wave-2 signature can clearly be seen in total column ozone; this is the time of year when the ozone hole is typically just beginning to form. Image
(3/n) This wave forcing is unlikely to drive a major #SSW at the moment because the austral #polarvortex is nearing climatological peak strength, but it is going to reduce the winds to daily record minimums. Image
Read 5 tweets
Dr. Amy H Butler Profile picture
Dec 13, 2018
(1/n) One measure I pay close attention to in winter is the "eddy heat flux". What does that mean? Eddy heat flux is basically referring to the heat transported from the tropics to the poles by weather fronts (otherwise, the tropics would be much hotter and the poles colder!). Image
(2/n) Mathematically, it’s defined as v’T’, where the prime is a deviation from the zonal-mean, v is meridional wind, and T is temperature. Usually it’s averaged over the mid-latitudes. Image
(3/n) A (+) or poleward eddy heat flux must be associated with vertically propagating waves (arrows in plot). The largest waves break in the stratosphere, disrupting #polarvortex and sometimes causing an #SSW. A good measure of the wave activity into the strat is v’T’ at 100mb. Image
Read 5 tweets

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