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September 10, 2025

Dust-driven droplet freezing explains cloud-top phase in the northern extratropics

Key Points

Ice-to-total frequency significantly increases as dust aerosol concentration rises, affecting cloud behavior.
A strong correlation exists between dust levels and cloud-top ice occurrence within temperatures of −15° to −30°C.
Satellite data over 35 years was utilized to analyze the relationship between dust aerosol and cloud-top phase.
Findings point to potential influences of dust on cloud behaviors and climate models, highlighting their importance.

Abstract

Clouds between −39° and 0°C can be topped by a liquid or ice layer, which affects their radiative forcing and precipitation. The cloud-top ice-to-total frequency (ITF) quantifies the occurrence of clouds with an ice top relative to total cloud occurrence, but the factors controlling ITF are poorly understood. Using 35 years of satellite data, we show that in the Northern Hemisphere, between −15° and −30°C, dust aerosol is strongly correlated with ITF in both time and space. Furthermore, we found that the sensitivities of ITF to temperature and dust are in a ratio that agrees with laboratory measurements of droplet freezing, showing that ITF can be attributed to dust aerosol.

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Dust-driven droplet freezing explains cloud-top phase in the northern extratropics

Key Points

Abstract

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