Numerical coupling of aerosol emissions, dry removal, and turbulent mixing in the E3SM Atmosphere Model version 1 (EAMv1) – Part 1: Dust budget analyses and the impacts of a revised coupling scheme

Wan, Hui; Zhang, Kai; Vogl, Christopher J.; Woodward, Carol S.; Easter, Richard C.; Rasch, Philip J.; Feng, Yan; Wang, Hailong

doi:10.5194/gmd-17-1387-2024

Articles | Volume 17, issue 3

https://doi.org/10.5194/gmd-17-1387-2024

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

https://doi.org/10.5194/gmd-17-1387-2024

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

Articles | Volume 17, issue 3

Development and technical paper

|

16 Feb 2024

Development and technical paper |

| 16 Feb 2024

Numerical coupling of aerosol emissions, dry removal, and turbulent mixing in the E3SM Atmosphere Model version 1 (EAMv1) – Part 1: Dust budget analyses and the impacts of a revised coupling scheme

Hui Wan, Kai Zhang, Christopher J. Vogl, Carol S. Woodward, Richard C. Easter, Philip J. Rasch, Yan Feng, and Hailong Wang

Viewed

Since the preprint corresponding to this journal article was posted outside of Copernicus Publications, the preprint-related metrics are limited to HTML views.

Total article views: 4,154 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
3,708	352	94	4,154	146	117	169

HTML: 3,708
PDF: 352
XML: 94
Total: 4,154
Supplement: 146
BibTeX: 117
EndNote: 169

Views and downloads (calculated since 04 Aug 2023)

Month	HTML	PDF	XML	Total
Aug 2023	87	0	87
Sep 2023	27	0	27
Oct 2023	32	0	32
Nov 2023	2	0	2
Dec 2023	13	0	13
Jan 2024	13	0	13
Feb 2024	180	35	4	219
Mar 2024	81	12	6	99
Apr 2024	62	16	6	84
May 2024	73	16	9	98
Jun 2024	59	16	5	80
Jul 2024	76	8	1	85
Aug 2024	48	10	4	62
Sep 2024	54	4	0	58
Oct 2024	51	10	0	61
Nov 2024	30	2	3	35
Dec 2024	31	8	1	40
Jan 2025	43	10	0	53
Feb 2025	41	10	2	53
Mar 2025	30	11	0	41
Apr 2025	44	14	1	59
May 2025	36	2	0	38
Jun 2025	51	12	0	63
Jul 2025	40	10	2	52
Aug 2025	159	10	2	171
Sep 2025	554	14	1	569
Oct 2025	179	21	5	205
Nov 2025	104	3	3	110
Dec 2025	412	16	4	432
Jan 2026	380	16	17	413
Feb 2026	370	13	2	385
Mar 2026	78	11	6	95
Apr 2026	127	24	4	155
May 2026	121	13	4	138
Jun 2026	20	5	2	27

Cumulative views and downloads (calculated since 04 Aug 2023)

Month	HTML	PDF	XML	Total
Aug 2023	87	0	87
Sep 2023	27	0	27
Oct 2023	32	0	32
Nov 2023	2	0	2
Dec 2023	13	0	13
Jan 2024	13	0	13
Feb 2024	180	35	4	219
Mar 2024	81	12	6	99
Apr 2024	62	16	6	84
May 2024	73	16	9	98
Jun 2024	59	16	5	80
Jul 2024	76	8	1	85
Aug 2024	48	10	4	62
Sep 2024	54	4	0	58
Oct 2024	51	10	0	61
Nov 2024	30	2	3	35
Dec 2024	31	8	1	40
Jan 2025	43	10	0	53
Feb 2025	41	10	2	53
Mar 2025	30	11	0	41
Apr 2025	44	14	1	59
May 2025	36	2	0	38
Jun 2025	51	12	0	63
Jul 2025	40	10	2	52
Aug 2025	159	10	2	171
Sep 2025	554	14	1	569
Oct 2025	179	21	5	205
Nov 2025	104	3	3	110
Dec 2025	412	16	4	432
Jan 2026	380	16	17	413
Feb 2026	370	13	2	385
Mar 2026	78	11	6	95
Apr 2026	127	24	4	155
May 2026	121	13	4	138
Jun 2026	20	5	2	27

Viewed (geographical distribution)

Since the preprint corresponding to this journal article was posted outside of Copernicus Publications, the preprint-related metrics are limited to HTML views.

Total article views: 4,154 (including HTML, PDF, and XML) Thereof 4,089 with geography defined and 65 with unknown origin.

Country	#	Views	%

1

1

Latest update: 13 Jun 2026

Short summary

Sophisticated numerical models of the Earth's atmosphere include representations of many physical and chemical processes. In numerical simulations, these processes need to be calculated in a certain sequence. This study reveals the weaknesses of the sequence of calculations used for aerosol processes in a global atmosphere model. A revision of the sequence is proposed and its impacts on the simulated global aerosol climatology are evaluated.


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