Quantifying the impacts of marine aerosols over the southeast Atlantic Ocean using a chemical transport model: implications for aerosol–cloud interactions

Hossain, Mashiat; Garland, Rebecca M.; Horowitz, Hannah M.

doi:10.5194/acp-24-14123-2024

Articles | Volume 24, issue 24

https://doi.org/10.5194/acp-24-14123-2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

New observations and related modelling studies of the aerosol–cloud–climate...

https://doi.org/10.5194/acp-24-14123-2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 24, issue 24

Research article

|

19 Dec 2024

Research article |

| 19 Dec 2024

Quantifying the impacts of marine aerosols over the southeast Atlantic Ocean using a chemical transport model: implications for aerosol–cloud interactions

Mashiat Hossain, Rebecca M. Garland, and Hannah M. Horowitz

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Cumulative views and downloads (calculated since 04 Jul 2024)

Month	HTML	PDF	XML	Total
Jul 2024	154	48	10	212
Aug 2024	76	18	7	101
Sep 2024	30	16	2	48
Oct 2024	25	4	36	65
Nov 2024	28	7	48	83
Dec 2024	246	34	34	314
Jan 2025	125	13	0	138
Feb 2025	46	7	1	54
Mar 2025	51	8	1	60
Apr 2025	65	6	1	72
May 2025	67	8	7	82
Jun 2025	81	9	0	90
Jul 2025	68	11	1	80
Aug 2025	82	6	2	90
Sep 2025	181	4	1	186
Oct 2025	62	11	0	73
Nov 2025	49	11	3	63
Dec 2025	92	21	4	117
Jan 2026	12	3	0	15

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Short summary

Our research examines aerosol dynamics over the southeast Atlantic, a region with significant uncertainties in aerosol radiative forcings. Using the GEOS-Chem model, we find that at cloud altitudes, organic aerosols dominate during the biomass burning season, while sulfate aerosols, driven by marine emissions, prevail during peak primary production. These findings highlight the need for accurate representation of marine aerosols in models to improve climate predictions and reduce uncertainties.


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