To celebrate the kick-off of #UNOC3 and #OOSC in Nice, we share a striking, mesmerising perspective on Mediterranean Marine Heatwaves βand their clear amplification by climate change.
From @awi.de storyline simulations, visual by @jawijan.bsky.social
πͺοΈ Tales from the Storm at #AGU24!
Check out our km-scale storyline simulations of Hurricane Helene and other 2024 extremes.
π’ @thomasjung.bsky.social will present: How storyline simulations answer βwhat ifβ questions.
π
Tue, 10 Dec 2024πNH22B, 202 A
β¨ Learn more: doi.org/10.22541/ess...
Inaugural first #BlueSky post, re-sharing our latest paper!
Still on the front page of Communications Earth & Environment π
doi.org/10.1038/s432...
Wind over the Atlantic from a 5 km resolution model. Different surface types interact with wind in unique ways, which is why the continents are distinctly visible in the wind field. π§ͺ
Model: IFS-FESOM | U component of the wind | Project: nextGEMS | Simulations: @trackow.bsky.social
#SciArt
The maximum 2m-temperature during the peak heatwave period (July 25, 2019) over France for the different storyline experiments (top panels: a, b, c). The bottom chart illustrates the hourly maximum 2m-temperature from the different experiments for the Paris region inside the black dotted box (48.5-49Β°N and 2.0-3.0Β°E). This comparison highlights the varying intensity of the heatwave across different climates.
The storyline approach isnβt new, but for the first time, weβre using it with 10km resolution! π See how extreme events might have looked in the past, without climate change, and how they could unfold in a +2Β°C future. Check out our work led by Amal John: essopenarchive.org/users/852952...
