Influence of enhanced Asian NO<sub><i>x</i></sub> emissions on ozone in the upper troposphere and lower stratosphere in chemistry&ndash;climate model simulations

Roy, Chaitri; Fadnavis, Suvarna; Müller, Rolf; Ayantika, D. C.; Ploeger, Felix; Rap, Alexandru

doi:10.5194/acp-17-1297-2017

Articles | Volume 17, issue 2

https://doi.org/10.5194/acp-17-1297-2017

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

https://doi.org/10.5194/acp-17-1297-2017

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

Articles | Volume 17, issue 2

Research article

|

27 Jan 2017

Research article |

| 27 Jan 2017

Influence of enhanced Asian NO_x emissions on ozone in the upper troposphere and lower stratosphere in chemistry–climate model simulations

Chaitri Roy, Suvarna Fadnavis, Rolf Müller, D. C. Ayantika, Felix Ploeger, and Alexandru Rap

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Month	HTML	PDF	XML	Total
Jul 2016	102	48	6	156
Aug 2016	22	6	1	29
Sep 2016	11	2	0	13
Oct 2016	6	1	5	12
Nov 2016	7	1	5	13
Dec 2016	8	2	0	10
Jan 2017	109	42	4	155
Feb 2017	75	44	1	120
Mar 2017	46	46	2	94
Apr 2017	32	54	0	86
May 2017	46	46	6	98
Jun 2017	35	24	2	61
Jul 2017	30	24	0	54
Aug 2017	19	16	0	35
Sep 2017	13	12	4	29
Oct 2017	8	9	1	18
Nov 2017	22	19	2	43
Dec 2017	13	7	0	20
Jan 2018	13	16	2	31
Feb 2018	13	5	0	18
Mar 2018	18	10	1	29
Apr 2018	12	5	1	18
May 2018	14	10	0	24
Jun 2018	8	15	0	23
Jul 2018	8	7	0	15
Aug 2018	24	11	2	37
Sep 2018	11	15	0	26
Oct 2018	12	5	1	18
Nov 2018	15	7	1	23
Dec 2018	13	8	1	22
Jan 2019	8	5	1	14
Feb 2019	4	2	0	6
Mar 2019	6	7	0	13
Apr 2019	8	6	0	14
May 2019	6	9	0	15
Jun 2019	7	8	0	15
Jul 2019	12	11	0	23
Aug 2019	2	1	0	3
Sep 2019	6	9	0	15
Oct 2019	4	3	1	8
Nov 2019	7	6	0	13
Dec 2019	10	5	0	15
Jan 2020	13	5	1	19
Feb 2020	14	6	1	21
Mar 2020	5	3	0	8
Apr 2020	3	5	0	8
May 2020	8	1	0	9
Jun 2020	11	14	0	25
Jul 2020	22	15	5	42
Aug 2020	10	7	2	19
Sep 2020	11	6	2	19
Oct 2020	5	7	0	12
Nov 2020	19	7	1	27
Dec 2020	12	9	0	21
Jan 2021	17	9	0	26
Feb 2021	8	8	0	16
Mar 2021	10	3	1	14
Apr 2021	6	7	0	13
May 2021	10	8	3	21
Jun 2021	10	5	0	15
Jul 2021	10	12	0	22
Aug 2021	4	27	1	32
Sep 2021	16	7	0	23
Oct 2021	7	32	1	40
Nov 2021	9	26	0	35
Dec 2021	13	11	0	24
Jan 2022	11	8	0	19
Feb 2022	5	10	1	16
Mar 2022	9	8	0	17
Apr 2022	10	4	1	15
May 2022	8	3	0	11
Jun 2022	4	8	0	12
Jul 2022	11	6	0	17
Aug 2022	14	7	0	21
Sep 2022	8	4	0	12
Oct 2022	12	7	1	20
Nov 2022	9	6	1	16
Dec 2022	13	8	0	21
Jan 2023	18	8	2	28
Feb 2023	13	9	0	22
Mar 2023	13	5	0	18
Apr 2023	7	8	0	15
May 2023	27	8	0	35
Jun 2023	38	4	1	43
Jul 2023	35	5	1	41
Aug 2023	37	11	2	50
Sep 2023	42	4	0	46
Oct 2023	100	10	2	112
Nov 2023	125	5	0	130
Dec 2023	49	10	3	62
Jan 2024	37	4	0	41
Feb 2024	38	9	0	47
Mar 2024	43	12	2	57
Apr 2024	37	14	3	54
May 2024	20	8	2	30
Jun 2024	18	15	3	36
Jul 2024	20	18	2	40
Aug 2024	36	30	2	68
Sep 2024	15	11	1	27
Oct 2024	24	22	0	46
Nov 2024	12	100	2	114
Dec 2024	12	37	1	50
Jan 2025	19	60	0	79
Feb 2025	24	32	3	59
Mar 2025	13	38	3	54
Apr 2025	18	18	0	36
May 2025	23	9	1	33
Jun 2025	42	23	2	67
Jul 2025	20	10	2	32
Aug 2025	28	13	2	43
Sep 2025	68	17	2	87
Oct 2025	16	21	2	39
Nov 2025	14	13	0	27

Cumulative views and downloads (calculated since 20 Jul 2016)

Month	HTML	PDF	XML	Total
Jul 2016	102	48	6	156
Aug 2016	22	6	1	29
Sep 2016	11	2	0	13
Oct 2016	6	1	5	12
Nov 2016	7	1	5	13
Dec 2016	8	2	0	10
Jan 2017	109	42	4	155
Feb 2017	75	44	1	120
Mar 2017	46	46	2	94
Apr 2017	32	54	0	86
May 2017	46	46	6	98
Jun 2017	35	24	2	61
Jul 2017	30	24	0	54
Aug 2017	19	16	0	35
Sep 2017	13	12	4	29
Oct 2017	8	9	1	18
Nov 2017	22	19	2	43
Dec 2017	13	7	0	20
Jan 2018	13	16	2	31
Feb 2018	13	5	0	18
Mar 2018	18	10	1	29
Apr 2018	12	5	1	18
May 2018	14	10	0	24
Jun 2018	8	15	0	23
Jul 2018	8	7	0	15
Aug 2018	24	11	2	37
Sep 2018	11	15	0	26
Oct 2018	12	5	1	18
Nov 2018	15	7	1	23
Dec 2018	13	8	1	22
Jan 2019	8	5	1	14
Feb 2019	4	2	0	6
Mar 2019	6	7	0	13
Apr 2019	8	6	0	14
May 2019	6	9	0	15
Jun 2019	7	8	0	15
Jul 2019	12	11	0	23
Aug 2019	2	1	0	3
Sep 2019	6	9	0	15
Oct 2019	4	3	1	8
Nov 2019	7	6	0	13
Dec 2019	10	5	0	15
Jan 2020	13	5	1	19
Feb 2020	14	6	1	21
Mar 2020	5	3	0	8
Apr 2020	3	5	0	8
May 2020	8	1	0	9
Jun 2020	11	14	0	25
Jul 2020	22	15	5	42
Aug 2020	10	7	2	19
Sep 2020	11	6	2	19
Oct 2020	5	7	0	12
Nov 2020	19	7	1	27
Dec 2020	12	9	0	21
Jan 2021	17	9	0	26
Feb 2021	8	8	0	16
Mar 2021	10	3	1	14
Apr 2021	6	7	0	13
May 2021	10	8	3	21
Jun 2021	10	5	0	15
Jul 2021	10	12	0	22
Aug 2021	4	27	1	32
Sep 2021	16	7	0	23
Oct 2021	7	32	1	40
Nov 2021	9	26	0	35
Dec 2021	13	11	0	24
Jan 2022	11	8	0	19
Feb 2022	5	10	1	16
Mar 2022	9	8	0	17
Apr 2022	10	4	1	15
May 2022	8	3	0	11
Jun 2022	4	8	0	12
Jul 2022	11	6	0	17
Aug 2022	14	7	0	21
Sep 2022	8	4	0	12
Oct 2022	12	7	1	20
Nov 2022	9	6	1	16
Dec 2022	13	8	0	21
Jan 2023	18	8	2	28
Feb 2023	13	9	0	22
Mar 2023	13	5	0	18
Apr 2023	7	8	0	15
May 2023	27	8	0	35
Jun 2023	38	4	1	43
Jul 2023	35	5	1	41
Aug 2023	37	11	2	50
Sep 2023	42	4	0	46
Oct 2023	100	10	2	112
Nov 2023	125	5	0	130
Dec 2023	49	10	3	62
Jan 2024	37	4	0	41
Feb 2024	38	9	0	47
Mar 2024	43	12	2	57
Apr 2024	37	14	3	54
May 2024	20	8	2	30
Jun 2024	18	15	3	36
Jul 2024	20	18	2	40
Aug 2024	36	30	2	68
Sep 2024	15	11	1	27
Oct 2024	24	22	0	46
Nov 2024	12	100	2	114
Dec 2024	12	37	1	50
Jan 2025	19	60	0	79
Feb 2025	24	32	3	59
Mar 2025	13	38	3	54
Apr 2025	18	18	0	36
May 2025	23	9	1	33
Jun 2025	42	23	2	67
Jul 2025	20	10	2	32
Aug 2025	28	13	2	43
Sep 2025	68	17	2	87
Oct 2025	16	21	2	39
Nov 2025	14	13	0	27

Latest update: 18 Nov 2025

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Short summary

In the monsoon season, Asian NO_x emissions are rapidly transported to the UTLS and can impact ozone in the UTLS. From chemistry–climate model simulations, we show that increasing Asian NO_x emissions have enhanced ozone radiative forcing over Southeast Asia, which leads to significant warming over the Tibetan Plateau and increase precipitation over India. However, a further increase in NO_x emissions elicited negative precipitation due to reversal of monsoon Hadley circulation.

Influence of enhanced Asian NOx emissions on ozone in the upper troposphere and lower stratosphere in chemistry–climate model simulations

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Influence of enhanced Asian NO_x emissions on ozone in the upper troposphere and lower stratosphere in chemistry–climate model simulations