Storm Track Self-Reinforcement Through Cloud Radiative Effects
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Abstract
Traditionally, midlatitude storm tracks are viewed as being driven by meridional temperature gradients maintained by differential solar heating.
Yet in the Southern Hemisphere, storm activity remains strong even when the summertime insolation gradient nearly vanishes.
Here, we show that storm-track cloud radiative effects play a major role in maintaining the Southern Hemisphere storm activity.
Satellite observations reveal that sunlight reflected by midlatitude clouds in early summer creates a substantial meridional gradient in surface heating, despite the nearly uniform summer insolation.
Idealized aquaplanet simulations then show that shortwave cloud radiative effects reinforce meridional sea-surface temperature gradients, thereby strengthening storm activity primarily during late summer and autumn, while longwave cloud effects partly offset this response.
To interpret these results, we develop a simple theoretical model linking storms, clouds, and sea-surface temperature gradients.
The model reproduces the simulated seasonal response and identifies two emergent cloud properties that control the feedback strength: the maximum attainable cloud albedo and the sensitivity of cloud cover to storm activity.
Together, these findings indicate that cloud radiative feedbacks are key to maintaining the thermal gradients that sustain storm activity.
More broadly, they reveal a strong coupling among storms, clouds, and the ocean spanning distinct spatial and temporal scales.