Diurnal evolution of non-precipitating marine stratocumuli in a large-eddy simulation ensemble

Chen, Yao-Sheng; Zhang, Jianhao; Hoffmann, Fabian; Yamaguchi, Takanobu; Glassmeier, Franziska; Zhou, Xiaoli; Feingold, Graham

doi:10.5194/acp-24-12661-2024

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Diurnal evolution of non-precipitating marine stratocumuli in a large-eddy simulation ensemble

2024
By Chen, Yao-Sheng ; Zhang, Jianhao ; Hoffmann, Fabian ; ...
Source: Atmospheric Chemistry and Physics, 24(22), 12661-12685

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Journal Title:

Atmospheric Chemistry and Physics
Personal Author:

Chen, Yao-Sheng ; Zhang, Jianhao ; Hoffmann, Fabian ; Yamaguchi, Takanobu ; Glassmeier, Franziska ; ... More +

Chen, Yao-Sheng ; Zhang, Jianhao ; Hoffmann, Fabian ; Yamaguchi, Takanobu ; Glassmeier, Franziska ; Zhou, Xiaoli ; Feingold, Graham Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research) ; CSL (Chemical Sciences Laboratory) ; CIRES (Cooperative Institute for Research in Environmental Sciences)

OAR (Oceanic and Atmospheric Research) ; CSL (Chemical Sciences Laboratory) ; CIRES (Cooperative Institute for Research in Environmental Sciences) Less -
Description:

We explore the cloud system evolution of non-precipitating marine stratocumuli with a focus on the impacts of the diurnal cycle and free-tropospheric (FT) humidity based on an ensemble of 244 large-eddy simulations generated by perturbing initial thermodynamic profiles and aerosol conditions. Cases are categorized based on their degree of decoupling and the cloud liquid water path (LWPc, based on model columns with cloud optical depths greater than one). A budget analysis method is proposed to analyze the evolution of cloud water in both coupled and decoupled boundary layers. More coupled clouds start with a relatively low LWPc and cloud fraction (fc) but experience the least decrease in LWPc and fc during the daytime. More decoupled clouds undergo greater daytime reduction in LWPc and fc, especially those with higher LWPc at sunrise because they suffer from faster weakening of net radiative cooling. During the nighttime, a positive correlation between FT humidity and the LWPc emerges, consistent with higher FT humidity reducing both radiative cooling and the humidity jump, both of which reduce entrainment and increase LWPc. The LWPc is more likely to decrease during the nighttime for a larger LWPc and greater inversion base height (zi), conditions under which entrainment dominates as turbulence develops. In the morning, the rate of the LWPc reduction depends on the LWPc at sunrise, zi, and the degree of decoupling, with distinct contributions from subsidence and radiation.
Source:

Atmospheric Chemistry and Physics, 24(22), 12661-12685
DOI:

https://doi.org/10.5194/acp-24-12661-2024
ISSN:

1680-7324
Format:

pdf
Publisher:

Copernicus GmbH
Document Type:

Journal Article
Funding:

Grant no. NA17OAR4320101 ; Grant no. NA22OAR4320151

Grant no. NA17OAR4320101 ; Grant no. NA22OAR4320151 Less -
License:

https://creativecommons.org/licenses/by/4.0/
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CC BY
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Submitted
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urn:sha-512:fc097acbf0d922c32a00aa4b7d9193706d5fde30b66e51a37dd213bb1d2498c285478db4db7cf7513f6471a22a4264d0309fcf255d2abab8a68f8506b5183783
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Diurnal evolution of non-precipitating marine stratocumuli in a large-eddy simulation ensemble

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