The Radiative Forcing Model Intercomparison Project (RFMIP2.0) for CMIP7 protocol paper is now published:
gmd.copernicus.org/articles/19/...
Check out the @pnas.org highlight for our new paper on how Paleoclimate Pattern Effects in the Pliocene lead to tighter constraints on the modern response to CO2 (a.k.a. climate sensitivity)
CFMIP protocol pre-print now out for discussion
egusphere.copernicus.org/preprints/20...
Really excited to see this paper out!! Led by @vtcoop.bsky.social we show that if you use cold and warm paleoclimates together, you can reduce uncertainty in Earth's climate sensitivity by quantifying the pattern effect and more precisely constrain future climate change www.pnas.org/doi/10.1073/...
How are we equipping people for the current and future climate?
Our Chief Executive @pennyend.bsky.social has spoken to
@carbonbrief.org about climate science, tackling misinformation and AI.
Read and watch ⤵️
www.carbonbrief.org/the-carbon-b...
What's that? Climate predictions, you say? Okay!
www.realclimate.org/index.php/cl...
Fantastic to welcome Dr Ben Booth to @universityofleeds.bsky.social School of Computer Science: the 5th of 5 new Met Office Academic Partnership joint positions.
ML is transforming science. Ben's appointment will better link atmos & computer science & deliver impact
eps.leeds.ac.uk/news/article...
Paleoclimates provide examples of past climate change that inform estimates of modern
warming from greenhouse-gas emissions, known as Earth’s clima...
The Pliocene climate was more sensitive than the current climate, suggesting that the upper bound of potential 21st-century warming—an estimate informed by Pliocene warming—should be revised down from 5 °C to 4 °C, according to the authors. In PNAS: https://ow.ly/U5H750Y5yUo
