The influence of simulated surface dust lofting and atmospheric loading on radiative forcing

Saleeby, Stephen M.; van den Heever, Susan C.; Bukowski, Jennie; Walker, Annette L.; Solbrig, Jeremy E.; Atwood, Samuel A.; Bian, Qijing; Kreidenweis, Sonia M.; Wang, Yi; Wang, Jun; Miller, Steven D.

doi:https://doi.org/10.5194/acp-19-10279-2019

Articles | Volume 19, issue 15

https://doi.org/10.5194/acp-19-10279-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Holistic Analysis of Aerosol in Littoral Environments - A...

https://doi.org/10.5194/acp-19-10279-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 15

Research article

|

14 Aug 2019

Research article |

| 14 Aug 2019

The influence of simulated surface dust lofting and atmospheric loading on radiative forcing

Stephen M. Saleeby, Susan C. van den Heever, Jennie Bukowski, Annette L. Walker, Jeremy E. Solbrig, Samuel A. Atwood, Qijing Bian, Sonia M. Kreidenweis, Yi Wang, Jun Wang, and Steven D. Miller

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Jun 2019	4	2	0	6
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Sep 2019	36	17	0	53
Oct 2019	23	16	2	41
Nov 2019	11	5	0	16
Dec 2019	18	11	0	29
Jan 2020	17	9	0	26
Feb 2020	12	4	1	17
Mar 2020	6	8	0	14
Apr 2020	13	13	0	26
May 2020	13	5	0	18
Jun 2020	25	17	0	42
Jul 2020	19	23	4	46
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Dec 2020	14	3	0	17
Jan 2021	20	14	2	36
Feb 2021	13	5	0	18
Mar 2021	9	6	0	15
Apr 2021	6	8	0	14
May 2021	9	9	1	19
Jun 2021	13	9	0	22
Jul 2021	7	9	0	16
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Jan 2022	18	9	0	27
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Jan 2025	53	10	0	63
Feb 2025	39	9	0	48
Mar 2025	28	5	0	33
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Cumulative views and downloads (calculated since 07 Jan 2019)

Month	HTML	PDF	XML	Total
Jan 2019	136	18	0	154
Feb 2019	18	4	0	22
Mar 2019	16	10	1	27
Apr 2019	20	8	1	29
May 2019	22	4	1	27
Jun 2019	4	2	0	6
Jul 2019	10	11	1	22
Aug 2019	278	84	6	368
Sep 2019	36	17	0	53
Oct 2019	23	16	2	41
Nov 2019	11	5	0	16
Dec 2019	18	11	0	29
Jan 2020	17	9	0	26
Feb 2020	12	4	1	17
Mar 2020	6	8	0	14
Apr 2020	13	13	0	26
May 2020	13	5	0	18
Jun 2020	25	17	0	42
Jul 2020	19	23	4	46
Aug 2020	20	16	2	38
Sep 2020	17	13	0	30
Oct 2020	4	7	0	11
Nov 2020	8	6	0	14
Dec 2020	14	3	0	17
Jan 2021	20	14	2	36
Feb 2021	13	5	0	18
Mar 2021	9	6	0	15
Apr 2021	6	8	0	14
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Aug 2021	12	6	0	18
Sep 2021	21	7	0	28
Oct 2021	18	28	0	46
Nov 2021	23	28	1	52
Dec 2021	28	10	0	38
Jan 2022	18	9	0	27
Feb 2022	27	7	0	34
Mar 2022	21	6	0	27
Apr 2022	18	6	1	25
May 2022	17	6	0	23
Jun 2022	14	2	0	16
Jul 2022	44	5	0	49
Aug 2022	95	6	0	101
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Oct 2022	19	3	2	24
Nov 2022	26	13	0	39
Dec 2022	21	4	2	27
Jan 2023	25	4	0	29
Feb 2023	27	8	1	36
Mar 2023	16	5	1	22
Apr 2023	7	4	0	11
May 2023	7	8	2	17
Jun 2023	17	6	1	24
Jul 2023	36	7	1	44
Aug 2023	41	6	2	49
Sep 2023	42	7	3	52
Oct 2023	53	3	2	58
Nov 2023	31	0	31
Dec 2023	54	14	3	71
Jan 2024	46	6	1	53
Feb 2024	39	7	1	47
Mar 2024	44	22	0	66
Apr 2024	22	9	3	34
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Jun 2024	57	4	2	63
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Sep 2024	43	3	0	46
Oct 2024	45	3	0	48
Nov 2024	34	2	1	37
Dec 2024	45	8	1	54
Jan 2025	53	10	0	63
Feb 2025	39	9	0	48
Mar 2025	28	5	0	33
Apr 2025	35	15	1	51
May 2025	47	5	2	54
Jun 2025	23	2	1	26

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Short summary

This study seeks to understand how intense dust storms impact the heating and cooling of the land surface and atmosphere. Dust storms that are intense enough to substantially impact visibility can also alter how much sunlight reaches the surface during the day and how much heat is trapped in the atmosphere at night. These radiation changes can impact the temperature of the atmosphere and impact the weather in the vicinity.

The influence of simulated surface dust lofting and atmospheric loading on radiative forcing

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9 citations as recorded by crossref.

9 citations as recorded by crossref.


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