Assessment of severe aerosol events from NASA MODIS and VIIRS aerosol products for data assimilation  and climate continuity

Gumber, Amanda; Reid, Jeffrey S.; Holz, Robert E.; Eck, Thomas F.; Hsu, N. Christina; Levy, Robert C.; Zhang, Jianglong; Veglio, Paolo

doi:10.5194/amt-16-2547-2023

Articles | Volume 16, issue 10

https://doi.org/10.5194/amt-16-2547-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/amt-16-2547-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 16, issue 10

Research article

|

26 May 2023

Research article |

| 26 May 2023

Assessment of severe aerosol events from NASA MODIS and VIIRS aerosol products for data assimilation and climate continuity

Amanda Gumber, Jeffrey S. Reid, Robert E. Holz, Thomas F. Eck, N. Christina Hsu, Robert C. Levy, Jianglong Zhang, and Paolo Veglio

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Total article views: 5,877 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
2,446	3,322	109	5,877	184	116	151

HTML: 2,446
PDF: 3,322
XML: 109
Total: 5,877
Supplement: 184
BibTeX: 116
EndNote: 151

Views and downloads (calculated since 09 Nov 2022)

Month	HTML	PDF	XML	Total
Nov 2022	137	42	5	184
Dec 2022	35	13	3	51
Jan 2023	44	10	2	56
Feb 2023	38	12	5	55
Mar 2023	11	6	1	18
Apr 2023	13	11	1	25
May 2023	144	152	8	304
Jun 2023	97	1,110	2	1,209
Jul 2023	35	1,212	2	1,249
Aug 2023	38	106	2	146
Sep 2023	32	21	0	53
Oct 2023	35	8	2	45
Nov 2023	9	9	0	18
Dec 2023	31	15	1	47
Jan 2024	27	2	1	30
Feb 2024	21	8	0	29
Mar 2024	34	29	2	65
Apr 2024	27	11	1	39
May 2024	42	12	7	61
Jun 2024	89	16	3	108
Jul 2024	76	11	5	92
Aug 2024	40	10	5	55
Sep 2024	19	6	0	25
Oct 2024	41	6	0	47
Nov 2024	41	11	1	53
Dec 2024	39	5	2	46
Jan 2025	36	39	3	78
Feb 2025	34	27	2	63
Mar 2025	29	24	0	53
Apr 2025	31	31	2	64
May 2025	47	9	2	58
Jun 2025	88	17	0	105
Jul 2025	68	24	3	95
Aug 2025	86	21	2	109
Sep 2025	128	22	2	152
Oct 2025	46	22	2	70
Nov 2025	107	62	6	175
Dec 2025	153	33	5	191
Jan 2026	123	42	8	173
Feb 2026	126	49	5	180
Mar 2026	92	39	5	136
Apr 2026	57	7	1	65

Cumulative views and downloads (calculated since 09 Nov 2022)

Month	HTML	PDF	XML	Total
Nov 2022	137	42	5	184
Dec 2022	35	13	3	51
Jan 2023	44	10	2	56
Feb 2023	38	12	5	55
Mar 2023	11	6	1	18
Apr 2023	13	11	1	25
May 2023	144	152	8	304
Jun 2023	97	1,110	2	1,209
Jul 2023	35	1,212	2	1,249
Aug 2023	38	106	2	146
Sep 2023	32	21	0	53
Oct 2023	35	8	2	45
Nov 2023	9	9	0	18
Dec 2023	31	15	1	47
Jan 2024	27	2	1	30
Feb 2024	21	8	0	29
Mar 2024	34	29	2	65
Apr 2024	27	11	1	39
May 2024	42	12	7	61
Jun 2024	89	16	3	108
Jul 2024	76	11	5	92
Aug 2024	40	10	5	55
Sep 2024	19	6	0	25
Oct 2024	41	6	0	47
Nov 2024	41	11	1	53
Dec 2024	39	5	2	46
Jan 2025	36	39	3	78
Feb 2025	34	27	2	63
Mar 2025	29	24	0	53
Apr 2025	31	31	2	64
May 2025	47	9	2	58
Jun 2025	88	17	0	105
Jul 2025	68	24	3	95
Aug 2025	86	21	2	109
Sep 2025	128	22	2	152
Oct 2025	46	22	2	70
Nov 2025	107	62	6	175
Dec 2025	153	33	5	191
Jan 2026	123	42	8	173
Feb 2026	126	49	5	180
Mar 2026	92	39	5	136
Apr 2026	57	7	1	65

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Total article views: 5,877 (including HTML, PDF, and XML) Thereof 5,675 with geography defined and 202 with unknown origin.

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Latest update: 28 Apr 2026

Short summary

The purpose of this study is to create and evaluate a gridded dataset composed of multiple satellite instruments and algorithms to be used for data assimilation. An important part of aerosol data assimilation is having consistent measurements, especially for severe aerosol events. This study evaluates 4 years of data from MODIS, VIIRS, and AERONET with a focus on aerosol severe event detection from a regional and global perspective.