Weakening of tropical sea breeze convective systems through interactions of aerosol, radiation, and soil moisture

Park, J. Minnie; van den Heever, Susan C.

doi:https://doi.org/10.5194/acp-22-10527-2022

Articles | Volume 22, issue 16

https://doi.org/10.5194/acp-22-10527-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-22-10527-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 22, issue 16

Research article

|

19 Aug 2022

Research article |

| 19 Aug 2022

Weakening of tropical sea breeze convective systems through interactions of aerosol, radiation, and soil moisture

J. Minnie Park and Susan C. van den Heever

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Views and downloads (calculated since 09 Sep 2021)

Month	HTML	PDF	XML	Total
Sep 2021	160	30	5	195
Oct 2021	103	13	4	120
Nov 2021	64	11	0	75
Dec 2021	26	6	1	33
Jan 2022	42	9	3	54
Feb 2022	27	4	3	34
Mar 2022	25	8	3	36
Apr 2022	23	10	2	35
May 2022	14	11	1	26
Jun 2022	15	7	1	23
Jul 2022	15	6	0	21
Aug 2022	329	53	5	387
Sep 2022	165	22	1	188
Oct 2022	76	17	0	93
Nov 2022	164	20	0	184
Dec 2022	75	11	0	86
Jan 2023	36	17	0	53
Feb 2023	23	19	0	42
Mar 2023	21	9	0	30
Apr 2023	18	13	0	31
May 2023	24	17	1	42
Jun 2023	21	7	1	29
Jul 2023	38	17	1	56
Aug 2023	16	19	1	36
Sep 2023	21	14	1	36
Oct 2023	15	14	1	30
Nov 2023	5	8	1	14
Dec 2023	13	16	0	29
Jan 2024	14	10	0	24
Feb 2024	47	11	2	60
Mar 2024	17	27	2	46
Apr 2024	19	10	2	31
May 2024	29	12	1	42
Jun 2024	48	14	3	65
Jul 2024	33	8	3	44
Aug 2024	22	4	4	30
Sep 2024	20	12	0	32
Oct 2024	19	5	0	24
Nov 2024	12	23	1	36
Dec 2024	11	8	0	19
Jan 2025	6	5	0	11

Cumulative views and downloads (calculated since 09 Sep 2021)

Month	HTML	PDF	XML	Total
Sep 2021	160	30	5	195
Oct 2021	103	13	4	120
Nov 2021	64	11	0	75
Dec 2021	26	6	1	33
Jan 2022	42	9	3	54
Feb 2022	27	4	3	34
Mar 2022	25	8	3	36
Apr 2022	23	10	2	35
May 2022	14	11	1	26
Jun 2022	15	7	1	23
Jul 2022	15	6	0	21
Aug 2022	329	53	5	387
Sep 2022	165	22	1	188
Oct 2022	76	17	0	93
Nov 2022	164	20	0	184
Dec 2022	75	11	0	86
Jan 2023	36	17	0	53
Feb 2023	23	19	0	42
Mar 2023	21	9	0	30
Apr 2023	18	13	0	31
May 2023	24	17	1	42
Jun 2023	21	7	1	29
Jul 2023	38	17	1	56
Aug 2023	16	19	1	36
Sep 2023	21	14	1	36
Oct 2023	15	14	1	30
Nov 2023	5	8	1	14
Dec 2023	13	16	0	29
Jan 2024	14	10	0	24
Feb 2024	47	11	2	60
Mar 2024	17	27	2	46
Apr 2024	19	10	2	31
May 2024	29	12	1	42
Jun 2024	48	14	3	65
Jul 2024	33	8	3	44
Aug 2024	22	4	4	30
Sep 2024	20	12	0	32
Oct 2024	19	5	0	24
Nov 2024	12	23	1	36
Dec 2024	11	8	0	19
Jan 2025	6	5	0	11

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Total article views: 2,482 (including HTML, PDF, and XML) Thereof 2,585 with geography defined and -103 with unknown origin.

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Short summary

This study explores how increased aerosol particles impact tropical sea breeze cloud systems under different environments and how a range of environments modulate these cloud responses. Overall, sea breeze flows and clouds that develop therein become weaker due to interactions between aerosols, sunlight, and land surface. In addition, surface rainfall also decreases with more aerosol particles. Weakening of cloud and rain with more aerosols is found irrespective of 130 different environments.

Weakening of tropical sea breeze convective systems through interactions of aerosol, radiation, and soil moisture

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4 citations as recorded by crossref.

3 citations as recorded by crossref.

1 citations as recorded by crossref.


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