Examination of Aerosol Indirect Effects during Cirrus Cloud Evolution

Abstract: Abstract. Aerosols affect cirrus formation and evolution, yet quantification of these effects remain difficult based on in-situ observations due to the complexity of nucleation mechanisms and large variabilities in ice microphysical properties. This work employed a method to distinguish five evolution phases of cirrus clouds based on in-situ aircraft-based observations from seven U.S. National Science Foundation (NSF) and five NASA flight campaigns. Both homogeneous and heterogeneous nucleation were captured i… Show more

“…Climate models suffer from very coarse grid spacing and the formation mechanisms of cirrus clouds and the aerosol-cloud-interaction are therefore highly parameterized (Kuebbeler et al, 2014;Wang et al, 2014;Penner et al, 2018). A recent study suggests that climate models underestimate the aerosol-cloud-interaction for cirrus clouds (Maciel et al, 2022). Besides the effect on ice nucleation and cirrus formation, mineral dust can modify clouds and rainfall by acting as cloud condensation nuclei (e.g.…”

Aerosol-cloud-radiation interaction during Saharan dust episodes: The dusty cirrus puzzle

“…Climate models suffer from very coarse grid spacing and the formation mechanisms of cirrus clouds and the aerosol-cloud-interaction are therefore highly parameterized (Kuebbeler et al, 2014;Wang et al, 2014;Penner et al, 2018). A recent study suggests that climate models underestimate the aerosol-cloud-interaction for cirrus clouds (Maciel et al, 2022). Besides the effect on ice nucleation and cirrus formation, mineral dust can modify clouds and rainfall by acting as cloud condensation nuclei (e.g.…”

Aerosol-cloud-radiation interaction during Saharan dust episodes: The dusty cirrus puzzle