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Bibliographic Details
Main Authors: Gali, Kadja Flore, Sadi, Hamed Fahandezh, Anderson, Jesse C., Beeler, Payton, Wang, Aaron, Richter, David, Shaw, Raymond A, Yang, Fan, Cantrell, Will, Fierce, Laura
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.15832
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author Gali, Kadja Flore
Sadi, Hamed Fahandezh
Anderson, Jesse C.
Beeler, Payton
Wang, Aaron
Richter, David
Shaw, Raymond A
Yang, Fan
Cantrell, Will
Fierce, Laura
author_facet Gali, Kadja Flore
Sadi, Hamed Fahandezh
Anderson, Jesse C.
Beeler, Payton
Wang, Aaron
Richter, David
Shaw, Raymond A
Yang, Fan
Cantrell, Will
Fierce, Laura
contents Changes in aerosol concentrations can modify cloud brightness, producing a strong but poorly constrained influence on Earth's energy balance. Because cloud reflectivity depends on the size distribution of cloud droplets, and aerosol size strongly governs activation into droplets, one might expect cloud properties to be sensitive to aerosol size distributions. Here we show, through a combination of cloud chamber experiments and high-resolution simulations, that cloud microphysical and optical properties are often insensitive to aerosol size. Detectable impacts on cloud optical properties occur only under weak convective forcing and high aerosol concentrations. These results indicate that, in most conditions, cloud reflectivity can be predicted from aerosol number alone without detailed knowledge of aerosol size distributions, providing new constraints on how aerosol perturbations affect climate.
format Preprint
id arxiv_https___arxiv_org_abs_2511_15832
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Cloud droplet size distribution and optical properties only weakly linked to aerosol size
Gali, Kadja Flore
Sadi, Hamed Fahandezh
Anderson, Jesse C.
Beeler, Payton
Wang, Aaron
Richter, David
Shaw, Raymond A
Yang, Fan
Cantrell, Will
Fierce, Laura
Atmospheric and Oceanic Physics
Changes in aerosol concentrations can modify cloud brightness, producing a strong but poorly constrained influence on Earth's energy balance. Because cloud reflectivity depends on the size distribution of cloud droplets, and aerosol size strongly governs activation into droplets, one might expect cloud properties to be sensitive to aerosol size distributions. Here we show, through a combination of cloud chamber experiments and high-resolution simulations, that cloud microphysical and optical properties are often insensitive to aerosol size. Detectable impacts on cloud optical properties occur only under weak convective forcing and high aerosol concentrations. These results indicate that, in most conditions, cloud reflectivity can be predicted from aerosol number alone without detailed knowledge of aerosol size distributions, providing new constraints on how aerosol perturbations affect climate.
title Cloud droplet size distribution and optical properties only weakly linked to aerosol size
topic Atmospheric and Oceanic Physics
url https://arxiv.org/abs/2511.15832