A global evaluation of daily to seasonal aerosol and water vapor relationships using a combination of AERONET and NAAPS reanalysis data

Rubin, Juli I.; Reid, Jeffrey S.; Xian, Peng; Selman, Christopher M.; Eck, Thomas F.

doi:https://doi.org/10.5194/acp-23-4059-2023

Articles | Volume 23, issue 7

https://doi.org/10.5194/acp-23-4059-2023

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

https://doi.org/10.5194/acp-23-4059-2023

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

Articles | Volume 23, issue 7

Research article

|

05 Apr 2023

Research article |

| 05 Apr 2023

A global evaluation of daily to seasonal aerosol and water vapor relationships using a combination of AERONET and NAAPS reanalysis data

Juli I. Rubin, Jeffrey S. Reid, Peng Xian, Christopher M. Selman, and Thomas F. Eck

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Oct 2022	120	31	4	155
Nov 2022	37	16	1	54
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Jan 2023	29	10	2	41
Feb 2023	25	13	1	39
Mar 2023	20	3	0	23
Apr 2023	229	53	4	286
May 2023	102	17	1	120
Jun 2023	78	10	1	89
Jul 2023	177	26	5	208
Aug 2023	87	20	3	110
Sep 2023	82	16	1	99
Oct 2023	88	19	6	113
Nov 2023	44	8	0	52
Dec 2023	35	21	3	59
Jan 2024	27	11	0	38
Feb 2024	40	16	0	56
Mar 2024	31	20	0	51
Apr 2024	40	12	3	55
May 2024	41	12	5	58
Jun 2024	71	11	2	84
Jul 2024	48	10	3	61
Aug 2024	34	7	2	43
Sep 2024	32	4	0	36
Oct 2024	38	1	1	40
Nov 2024	33	7	2	42
Dec 2024	21	1	1	23
Jan 2025	9	2	0	11

Cumulative views and downloads (calculated since 11 Oct 2022)

Month	HTML	PDF	XML	Total
Oct 2022	120	31	4	155
Nov 2022	37	16	1	54
Dec 2022	53	11	4	68
Jan 2023	29	10	2	41
Feb 2023	25	13	1	39
Mar 2023	20	3	0	23
Apr 2023	229	53	4	286
May 2023	102	17	1	120
Jun 2023	78	10	1	89
Jul 2023	177	26	5	208
Aug 2023	87	20	3	110
Sep 2023	82	16	1	99
Oct 2023	88	19	6	113
Nov 2023	44	8	0	52
Dec 2023	35	21	3	59
Jan 2024	27	11	0	38
Feb 2024	40	16	0	56
Mar 2024	31	20	0	51
Apr 2024	40	12	3	55
May 2024	41	12	5	58
Jun 2024	71	11	2	84
Jul 2024	48	10	3	61
Aug 2024	34	7	2	43
Sep 2024	32	4	0	36
Oct 2024	38	1	1	40
Nov 2024	33	7	2	42
Dec 2024	21	1	1	23
Jan 2025	9	2	0	11

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Short summary

This work aims to quantify the covariability between aerosol optical depth/extinction with water vapor (PW) globally, using NASA AERONET observations and NAAPS model data. Findings are important for data assimilation and radiative transfer. The study shows statistically significant and positive AOD–PW relationships are found across the globe, varying in strength with location and season and tied to large-scale aerosol events. Hygroscopic growth was also found to be an important factor.

A global evaluation of daily to seasonal aerosol and water vapor relationships using a combination of AERONET and NAAPS reanalysis data

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4 citations as recorded by crossref.

4 citations as recorded by crossref.


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