AI Article Synopsis
- - The study highlights a significant variation in climate models' estimates of equilibrium climate sensitivity (ECS), which affects effective climate change policy and strategy.
- - The researchers found that higher ECS models (over 4.75 K) show a substantial decrease in extratropical low-cloud fraction from winter to summer, aligning with predicted declines in cloud coverage due to climate warming.
- - In contrast, models predicting lower ECS (under 3.3 K) do not exhibit the same seasonal pattern in extratropical low-cloud fraction, indicating differing cloud behaviors that influence climate variability.
Article Abstract
A large spread in model estimates of the equilibrium climate sensitivity (ECS), defined as the global mean near-surface air-temperature increase following a doubling of atmospheric CO concentration, leaves us greatly disadvantaged in guiding policy-making for climate change adaptation and mitigation. In this study, we show that the projected ECS in the latest generation of climate models is highly related to seasonal variations of extratropical low-cloud fraction (LCF) in historical simulations. Marked reduction of extratropical LCF from winter to summer is found in models with ECS > 4.75 K, in accordance with the significant reduction of extratropical LCF under a warming climate in these models. In contrast, a pronounced seasonal cycle of extratropical LCF, as supported by satellite observations, is largely absent in models with ECS < 3.3 K. The distinct seasonality in extratropical LCF in climate models is ascribed to their different prevailing cloud regimes governing the extratropical LCF variability.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10495370 | PMC |
| http://dx.doi.org/10.1038/s41467-023-41360-0 | DOI Listing |
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Muted extratropical low cloud seasonal cycle is closely linked to underestimated climate sensitivity in models.
Nat Commun
September 2023
NASA Goddard Institute for Space Studies, and Department of Applied Physics and Mathematics, Columbia University, New York, NY, USA.
Article Synopsis
- - The study highlights a significant variation in climate models' estimates of equilibrium climate sensitivity (ECS), which affects effective climate change policy and strategy.
- - The researchers found that higher ECS models (over 4.75 K) show a substantial decrease in extratropical low-cloud fraction from winter to summer, aligning with predicted declines in cloud coverage due to climate warming.
- - In contrast, models predicting lower ECS (under 3.3 K) do not exhibit the same seasonal pattern in extratropical low-cloud fraction, indicating differing cloud behaviors that influence climate variability.
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