Regional effects of atmospheric aerosols on temperature: an evaluation of an ensemble of online coupled models

Baró, Rocío; Palacios-Peña, Laura; Baklanov, Alexander; Balzarini, Alessandra; Brunner, Dominik; Forkel, Renate; Hirtl, Marcus; Honzak, Luka; Pérez, Juan Luis; Pirovano, Guido; San José, Roberto; Schröder, Wolfram; Werhahn, Johannes; Wolke, Ralf; Žabkar, Rahela; Jiménez-Guerrero, Pedro

doi:10.5194/acp-17-9677-2017

Articles | Volume 17, issue 15

https://doi.org/10.5194/acp-17-9677-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue:

Coupled chemistry–meteorology modelling: status and...

https://doi.org/10.5194/acp-17-9677-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 17, issue 15

Research article

|

11 Aug 2017

Research article |

| 11 Aug 2017

Regional effects of atmospheric aerosols on temperature: an evaluation of an ensemble of online coupled models

Rocío Baró, Laura Palacios-Peña, Alexander Baklanov, Alessandra Balzarini, Dominik Brunner, Renate Forkel, Marcus Hirtl, Luka Honzak, Juan Luis Pérez, Guido Pirovano, Roberto San José, Wolfram Schröder, Johannes Werhahn, Ralf Wolke, Rahela Žabkar, and Pedro Jiménez-Guerrero

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Month	HTML	PDF	XML	Total
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Feb 2017	50	8	5	63
Mar 2017	47	5	8	60
Apr 2017	45	7	10	62
May 2017	52	8	8	68
Jun 2017	42	9	6	57
Jul 2017	16	3	0	19
Aug 2017	254	108	4	366
Sep 2017	45	23	0	68
Oct 2017	26	18	1	45
Nov 2017	33	17	0	50
Dec 2017	27	7	0	34
Jan 2018	37	24	0	61
Feb 2018	17	17	0	34
Mar 2018	19	17	1	37
Apr 2018	13	8	0	21
May 2018	22	8	5	35
Jun 2018	13	7	13	33
Jul 2018	6	9	8	23
Aug 2018	14	8	3	25
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Oct 2018	11	15	4	30
Nov 2018	14	8	1	23
Dec 2018	12	4	1	17
Jan 2019	5	4	1	10
Feb 2019	5	10	0	15
Mar 2019	9	7	0	16
Apr 2019	4	7	0	11
May 2019	8	7	0	15
Jun 2019	10	3	0	13
Jul 2019	8	8	0	16
Aug 2019	13	7	0	20
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Nov 2019	7	4	0	11
Dec 2019	3	4	0	7
Jan 2020	10	6	0	16
Feb 2020	4	2	1	7
Mar 2020	3	3	1	7
Apr 2020	4	6	0	10
May 2020	7	5	1	13
Jun 2020	15	12	0	27
Jul 2020	12	17	3	32
Aug 2020	9	10	1	20
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Oct 2020	7	1	0	8
Nov 2020	2	2	2	6
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Jan 2021	15	7	0	22
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Mar 2021	14	6	1	21
Apr 2021	14	6	2	22
May 2021	18	8	1	27
Jun 2021	16	5	1	22
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Aug 2021	10	12	0	22
Sep 2021	12	11	0	23
Oct 2021	8	38	0	46
Nov 2021	12	27	1	40
Dec 2021	18	8	1	27
Jan 2022	13	9	1	23
Feb 2022	8	9	4	21
Mar 2022	10	8	0	18
Apr 2022	8	2	1	11
May 2022	4	6	1	11
Jun 2022	5	4	1	10
Jul 2022	5	3	0	8
Aug 2022	12	2	1	15
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Oct 2022	14	3	0	17
Nov 2022	16	8	2	26
Dec 2022	9	6	1	16
Jan 2023	5	14	0	19
Feb 2023	10	2	0	12
Mar 2023	26	4	3	33
Apr 2023	11	5	0	16
May 2023	29	8	0	37
Jun 2023	38	1	39
Jul 2023	37	4	1	42
Aug 2023	47	9	3	59
Sep 2023	88	6	1	95
Oct 2023	173	5	4	182
Nov 2023	145	3	0	148
Dec 2023	39	9	2	50
Jan 2024	41	3	0	44
Feb 2024	40	6	0	46
Mar 2024	42	10	1	53
Apr 2024	38	5	2	45
May 2024	16	10	4	30
Jun 2024	22	9	1	32
Jul 2024	17	16	3	36
Aug 2024	24	3	2	29
Sep 2024	9	3	0	12
Oct 2024	18	7	1	26
Nov 2024	22	1	5	28
Dec 2024	14	8	0	22
Jan 2025	12	7	0	19
Feb 2025	29	8	0	37
Mar 2025	13	9	1	23
Apr 2025	18	17	3	38
May 2025	18	6	0	24
Jun 2025	38	8	2	48
Jul 2025	29	13	1	43
Aug 2025	75	11	1	87
Sep 2025	72	11	3	86
Oct 2025	26	24	0	50
Nov 2025	27	35	7	69
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Cumulative views and downloads (calculated since 02 Jan 2017)

Month	HTML	PDF	XML	Total
Jan 2017	111	38	3	152
Feb 2017	50	8	5	63
Mar 2017	47	5	8	60
Apr 2017	45	7	10	62
May 2017	52	8	8	68
Jun 2017	42	9	6	57
Jul 2017	16	3	0	19
Aug 2017	254	108	4	366
Sep 2017	45	23	0	68
Oct 2017	26	18	1	45
Nov 2017	33	17	0	50
Dec 2017	27	7	0	34
Jan 2018	37	24	0	61
Feb 2018	17	17	0	34
Mar 2018	19	17	1	37
Apr 2018	13	8	0	21
May 2018	22	8	5	35
Jun 2018	13	7	13	33
Jul 2018	6	9	8	23
Aug 2018	14	8	3	25
Sep 2018	10	11	1	22
Oct 2018	11	15	4	30
Nov 2018	14	8	1	23
Dec 2018	12	4	1	17
Jan 2019	5	4	1	10
Feb 2019	5	10	0	15
Mar 2019	9	7	0	16
Apr 2019	4	7	0	11
May 2019	8	7	0	15
Jun 2019	10	3	0	13
Jul 2019	8	8	0	16
Aug 2019	13	7	0	20
Sep 2019	2	9	3	14
Oct 2019	9	5	3	17
Nov 2019	7	4	0	11
Dec 2019	3	4	0	7
Jan 2020	10	6	0	16
Feb 2020	4	2	1	7
Mar 2020	3	3	1	7
Apr 2020	4	6	0	10
May 2020	7	5	1	13
Jun 2020	15	12	0	27
Jul 2020	12	17	3	32
Aug 2020	9	10	1	20
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Oct 2020	7	1	0	8
Nov 2020	2	2	2	6
Dec 2020	7	4	1	12
Jan 2021	15	7	0	22
Feb 2021	9	7	0	16
Mar 2021	14	6	1	21
Apr 2021	14	6	2	22
May 2021	18	8	1	27
Jun 2021	16	5	1	22
Jul 2021	6	11	1	18
Aug 2021	10	12	0	22
Sep 2021	12	11	0	23
Oct 2021	8	38	0	46
Nov 2021	12	27	1	40
Dec 2021	18	8	1	27
Jan 2022	13	9	1	23
Feb 2022	8	9	4	21
Mar 2022	10	8	0	18
Apr 2022	8	2	1	11
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Oct 2022	14	3	0	17
Nov 2022	16	8	2	26
Dec 2022	9	6	1	16
Jan 2023	5	14	0	19
Feb 2023	10	2	0	12
Mar 2023	26	4	3	33
Apr 2023	11	5	0	16
May 2023	29	8	0	37
Jun 2023	38	1	39
Jul 2023	37	4	1	42
Aug 2023	47	9	3	59
Sep 2023	88	6	1	95
Oct 2023	173	5	4	182
Nov 2023	145	3	0	148
Dec 2023	39	9	2	50
Jan 2024	41	3	0	44
Feb 2024	40	6	0	46
Mar 2024	42	10	1	53
Apr 2024	38	5	2	45
May 2024	16	10	4	30
Jun 2024	22	9	1	32
Jul 2024	17	16	3	36
Aug 2024	24	3	2	29
Sep 2024	9	3	0	12
Oct 2024	18	7	1	26
Nov 2024	22	1	5	28
Dec 2024	14	8	0	22
Jan 2025	12	7	0	19
Feb 2025	29	8	0	37
Mar 2025	13	9	1	23
Apr 2025	18	17	3	38
May 2025	18	6	0	24
Jun 2025	38	8	2	48
Jul 2025	29	13	1	43
Aug 2025	75	11	1	87
Sep 2025	72	11	3	86
Oct 2025	26	24	0	50
Nov 2025	27	35	7	69
Dec 2025	3	0	3

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Short summary

The influence on modeled max., mean and min. temperature over Europe of including aerosol–radiation–cloud interactions has been assessed for two case studies in 2010. Data were taken from an ensemble of online regional chemistry–climate models from EuMetChem COST Action. The results indicate that including these interactions clearly improves the spatiotemporal variability in the temperature signal simulated by the models, with implications for reducing the uncertainty in climate projections.


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