Mid-21st century air quality at the urban scale under the influence of  changed climate and emissions – case studies for Paris and  Stockholm

Markakis, Konstantinos; Valari, Myrto; Engardt, Magnuz; Lacressonniere, Gwendoline; Vautard, Robert; Andersson, Camilla

doi:https://doi.org/10.5194/acp-16-1877-2016

Articles | Volume 16, issue 4

https://doi.org/10.5194/acp-16-1877-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/acp-16-1877-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 16, issue 4

Research article

|

18 Feb 2016

Research article |

| 18 Feb 2016

Mid-21st century air quality at the urban scale under the influence of changed climate and emissions – case studies for Paris and Stockholm

Konstantinos Markakis, Myrto Valari, Magnuz Engardt, Gwendoline Lacressonniere, Robert Vautard, and Camilla Andersson

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Nov 2015	21	29	9	59
Dec 2015	11	17	8	36
Jan 2016	29	20	3	52
Feb 2016	170	74	9	253
Mar 2016	49	19	0	68
Apr 2016	13	9	0	22
May 2016	20	15	0	35
Jun 2016	17	8	1	26
Jul 2016	8	6	2	16
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Oct 2016	17	10	1	28
Nov 2016	8	2	0	10
Dec 2016	5	2	0	7
Jan 2017	16	4	0	20
Feb 2017	13	7	2	22
Mar 2017	33	16	13	62
Apr 2017	27	10	15	52
May 2017	28	8	20	56
Jun 2017	25	4	8	37
Jul 2017	21	6	10	37
Aug 2017	11	10	11	32
Sep 2017	13	13	10	36
Oct 2017	11	13	13	37
Nov 2017	7	25	11	43
Dec 2017	12	15	11	38
Jan 2018	7	8	11	26
Feb 2018	10	5	9	24
Mar 2018	6	13	18	37
Apr 2018	10	16	13	39
May 2018	16	19	10	45
Jun 2018	9	13	20	42
Jul 2018	6	12	13	31
Aug 2018	22	11	15	48
Sep 2018	22	10	25	57
Oct 2018	10	15	17	42
Nov 2018	11	12	20	43
Dec 2018	14	8	2	24
Jan 2019	6	10	2	18
Feb 2019	11	11	0	22
Mar 2019	8	9	1	18
Apr 2019	7	8	0	15
May 2019	12	9	0	21
Jun 2019	11	8	1	20
Jul 2019	7	7	0	14
Aug 2019	8	10	3	21
Sep 2019	8	5	0	13
Oct 2019	8	10	1	19
Nov 2019	6	7	0	13
Dec 2019	6	5	0	11
Jan 2020	14	9	1	24
Feb 2020	6	2	0	8
Mar 2020	3	4	0	7
Apr 2020	4	4	1	9
May 2020	5	2	1	8
Jun 2020	21	6	0	27
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Aug 2020	8	4	12
Sep 2020	6	1	3	10
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Jan 2021	14	8	2	24
Feb 2021	12	4	0	16
Mar 2021	5	5	1	11
Apr 2021	10	7	2	19
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Jun 2021	7	2	2	11
Jul 2021	7	13	2	22
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Oct 2021	7	36	1	44
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Aug 2022	6	5	2	13
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Oct 2022	5	0	5
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Feb 2023	15	8	1	24
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Apr 2023	9	8	0	17
May 2023	31	6	0	37
Jun 2023	38	5	1	44
Jul 2023	44	2	1	47
Aug 2023	39	11	1	51
Sep 2023	37	6	1	44
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Nov 2023	26	1	0	27
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Cumulative views and downloads (calculated since 07 Oct 2015)

Month	HTML	PDF	XML	Total
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Nov 2015	21	29	9	59
Dec 2015	11	17	8	36
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Feb 2016	170	74	9	253
Mar 2016	49	19	0	68
Apr 2016	13	9	0	22
May 2016	20	15	0	35
Jun 2016	17	8	1	26
Jul 2016	8	6	2	16
Aug 2016	8	4	0	12
Sep 2016	12	5	0	17
Oct 2016	17	10	1	28
Nov 2016	8	2	0	10
Dec 2016	5	2	0	7
Jan 2017	16	4	0	20
Feb 2017	13	7	2	22
Mar 2017	33	16	13	62
Apr 2017	27	10	15	52
May 2017	28	8	20	56
Jun 2017	25	4	8	37
Jul 2017	21	6	10	37
Aug 2017	11	10	11	32
Sep 2017	13	13	10	36
Oct 2017	11	13	13	37
Nov 2017	7	25	11	43
Dec 2017	12	15	11	38
Jan 2018	7	8	11	26
Feb 2018	10	5	9	24
Mar 2018	6	13	18	37
Apr 2018	10	16	13	39
May 2018	16	19	10	45
Jun 2018	9	13	20	42
Jul 2018	6	12	13	31
Aug 2018	22	11	15	48
Sep 2018	22	10	25	57
Oct 2018	10	15	17	42
Nov 2018	11	12	20	43
Dec 2018	14	8	2	24
Jan 2019	6	10	2	18
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Mar 2019	8	9	1	18
Apr 2019	7	8	0	15
May 2019	12	9	0	21
Jun 2019	11	8	1	20
Jul 2019	7	7	0	14
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Nov 2019	6	7	0	13
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Jan 2020	14	9	1	24
Feb 2020	6	2	0	8
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Aug 2020	8	4	12
Sep 2020	6	1	3	10
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Sep 2023	37	6	1	44
Oct 2023	36	3	2	41
Nov 2023	26	1	0	27
Dec 2023	10	0	10

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Short summary

The overall climate benefit at both cities and pollutants is −2 to −10 % depending on metric. Over the city of Paris local mitigation of NO_x emissions increases future ozone due to titration inhibition. Climate is the most influential factor for maximum ozone in Paris, which is particularly interesting from a health impact perspective. Over urban areas with major regional contribution (e.g. Stockholm) the bias due to coarse emission inventory may lead to policy misclassification.