Aerosol indirect effects on the temperature–precipitation scaling

Da Silva, Nicolas; Mailler, Sylvain; Drobinski, Philippe

doi:https://doi.org/10.5194/acp-20-6207-2020

Articles | Volume 20, issue 10

https://doi.org/10.5194/acp-20-6207-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Hydrological cycle in the Mediterranean (ACP/AMT/GMD/HESS/NHESS/OS...

https://doi.org/10.5194/acp-20-6207-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 20, issue 10

Research article

|

28 May 2020

Research article |

| 28 May 2020

Aerosol indirect effects on the temperature–precipitation scaling

Nicolas Da Silva, Sylvain Mailler, and Philippe Drobinski

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Jun 2019	2	1	0	3
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Jul 2020	40	21	4	65
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Nov 2020	16	8	0	24
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Jan 2021	27	11	0	38
Feb 2021	19	12	0	31
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Apr 2021	17	4	0	21
May 2021	16	9	1	26
Jun 2021	7	5	0	12
Jul 2021	10	12	0	22
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Feb 2022	10	6	1	17
Mar 2022	6	5	0	11
Apr 2022	14	5	1	20
May 2022	8	7	0	15
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Aug 2022	125	8	0	133
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Jan 2023	12	8	0	20
Feb 2023	13	7	0	20
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May 2023	13	12	1	26
Jun 2023	19	5	1	25
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Nov 2023	18	3	0	21
Dec 2023	43	11	3	57
Jan 2024	12	5	0	17
Feb 2024	19	4	0	23
Mar 2024	16	12	2	30
Apr 2024	22	8	4	34
May 2024	134	8	2	144
Jun 2024	35	7	3	45
Jul 2024	381	8	0	389
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Oct 2024	36	1	37
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Cumulative views and downloads (calculated since 28 Jan 2019)

Month	HTML	PDF	XML	Total
Jan 2019	131	29	4	164
Feb 2019	99	22	2	123
Mar 2019	15	4	0	19
Apr 2019	9	5	1	15
May 2019	9	7	1	17
Jun 2019	2	1	0	3
Jul 2019	9	6	1	16
Aug 2019	5	5	0	10
Sep 2019	5	3	0	8
Oct 2019	11	6	1	18
Nov 2019	8	8	2	18
Dec 2019	11	4	0	15
Jan 2020	17	7	0	24
Feb 2020	6	4	0	10
Mar 2020	4	2	0	6
Apr 2020	12	3	0	15
May 2020	219	62	11	292
Jun 2020	144	35	2	181
Jul 2020	40	21	4	65
Aug 2020	32	6	2	40
Sep 2020	18	7	0	25
Oct 2020	14	14	0	28
Nov 2020	16	8	0	24
Dec 2020	16	10	0	26
Jan 2021	27	11	0	38
Feb 2021	19	12	0	31
Mar 2021	18	6	0	24
Apr 2021	17	4	0	21
May 2021	16	9	1	26
Jun 2021	7	5	0	12
Jul 2021	10	12	0	22
Aug 2021	17	9	0	26
Sep 2021	18	9	1	28
Oct 2021	10	40	0	50
Nov 2021	16	31	1	48
Dec 2021	17	7	0	24
Jan 2022	11	11	0	22
Feb 2022	10	6	1	17
Mar 2022	6	5	0	11
Apr 2022	14	5	1	20
May 2022	8	7	0	15
Jun 2022	10	6	1	17
Jul 2022	23	6	0	29
Aug 2022	125	8	0	133
Sep 2022	41	4	0	45
Oct 2022	9	1	2	12
Nov 2022	19	10	0	29
Dec 2022	16	5	1	22
Jan 2023	12	8	0	20
Feb 2023	13	7	0	20
Mar 2023	20	8	1	29
Apr 2023	10	13	1	24
May 2023	13	12	1	26
Jun 2023	19	5	1	25
Jul 2023	19	5	2	26
Aug 2023	18	7	1	26
Sep 2023	27	5	0	32
Oct 2023	29	15	2	46
Nov 2023	18	3	0	21
Dec 2023	43	11	3	57
Jan 2024	12	5	0	17
Feb 2024	19	4	0	23
Mar 2024	16	12	2	30
Apr 2024	22	8	4	34
May 2024	134	8	2	144
Jun 2024	35	7	3	45
Jul 2024	381	8	0	389
Aug 2024	28	7	3	38
Sep 2024	17	2	0	19
Oct 2024	36	1	37
Nov 2024	11	2	0	13

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Short summary

Microphysical effects of aerosols were found to weaken precipitation in a Euro-Mediterranean area. The present numerical study quantifies the processes that may be involved through the use of the temperature–precipitation relationship. It shows larger aerosol effects at low temperatures. At these temperatures, the process that contributes most is the increase in atmospheric stability through an enhanced aerosol cooling effect in the lower troposphere compared to the upper troposphere.

Aerosol indirect effects on the temperature–precipitation scaling

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7 citations as recorded by crossref.

6 citations as recorded by crossref.

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