Clouds and Seasonality on Terrestrial Planets with Varying Rotation Rates
- 1University of Exeter, Department of Mathematics, Exeter, United Kingdom of Great Britain – England, Scotland, Wales (dw569@exeter.ac.uk)
- 2University of Chicago, Department of the Geophysical Sciences, IL, USA
- 3Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary Sciences, Cambridge, MA, USA
- 4Yale University, Department of Earth and Planetary Sciences, New Haven, CT, USA
Clouds have been observed on Venus, Mars and Titan, and a growing number of exoplanets, yet the connection between planetary rotation rate and cloud distribution has not previously been extensively investigated. Using an idealised climate model incorporating seasonal forcing, we investigate the impact of rotation rate on the abundance of clouds on an Earth-like aquaplanet, and the resulting impacts upon albedo and seasonality. We show that the cloud distribution varies significantly with season, depending strongly on the rotation rate, and is well explained by the large-scale circulation and atmospheric state. Planetary albedo displays non-monotonic behaviour with rotation rate, peaking around one half of Earth’s rotation rate. Clouds reduce the surface temperature and total precipitation relative to simulations without clouds at all rotation rates, and reduce the dependence of precipitation on rotation rate. Clouds also affect the amplitude and timing of seasonality, in particular by modifying the width of the Hadley cell at intermediate rotation rates. The timing of seasonal transitions varies with rotation rate; the addition of clouds further modifies this phase lag, most notably at Earth-like rotation rates. Our results may inform future characterisation of terrestrial exoplanets, in particular informing estimates of planetary rotation for non-synchronous rotators.
How to cite: Williams, D., Ji, X., Corlies, P., and Lora, J.: Clouds and Seasonality on Terrestrial Planets with Varying Rotation Rates , EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-16259, https://doi.org/10.5194/egusphere-egu24-16259, 2024.