Response of the global surface ozone distribution to Northern Hemisphere sea surface temperature changes: implications for long-range transport

Yi, Kan; Liu, Junfeng; Ban-Weiss, George; Zhang, Jiachen; Tao, Wei; Cheng, Yanli; Tao, Shu

doi:https://doi.org/10.5194/acp-17-8771-2017

Articles | Volume 17, issue 14

https://doi.org/10.5194/acp-17-8771-2017

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

Special issue:

Global and regional assessment of intercontinental transport...

https://doi.org/10.5194/acp-17-8771-2017

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

Articles | Volume 17, issue 14

Research article

|

19 Jul 2017

Research article |

| 19 Jul 2017

Response of the global surface ozone distribution to Northern Hemisphere sea surface temperature changes: implications for long-range transport

Kan Yi, Junfeng Liu, George Ban-Weiss, Jiachen Zhang, Wei Tao, Yanli Cheng, and Shu Tao

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Month	HTML	PDF	XML	Total
Dec 2016	94	30	2	126
Jan 2017	41	15	2	58
Feb 2017	36	7	3	46
Mar 2017	46	3	8	57
Apr 2017	47	3	9	59
May 2017	37	8	7	52
Jun 2017	30	4	34
Jul 2017	203	59	5	267
Aug 2017	73	32	3	108
Sep 2017	33	19	4	56
Oct 2017	18	12	0	30
Nov 2017	21	16	2	39
Dec 2017	21	9	2	32
Jan 2018	19	17	1	37
Feb 2018	13	13	0	26
Mar 2018	28	21	1	50
Apr 2018	17	13	1	31
May 2018	19	13	1	33
Jun 2018	15	10	0	25
Jul 2018	8	11	0	19
Aug 2018	17	12	0	29
Sep 2018	12	16	0	28
Oct 2018	16	12	2	30
Nov 2018	37	9	0	46
Dec 2018	18	6	1	25
Jan 2019	13	7	1	21
Feb 2019	4	5	0	9
Mar 2019	7	13	0	20
Apr 2019	11	6	0	17
May 2019	6	4	2	12
Jun 2019	8	8	0	16
Jul 2019	6	9	0	15
Aug 2019	10	5	0	15
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Oct 2019	8	8	3	19
Nov 2019	6	2	0	8
Dec 2019	2	5	0	7
Jan 2020	8	4	1	13
Feb 2020	7	3	1	11
Mar 2020	4	1	0	5
Apr 2020	10	9	0	19
May 2020	9	7	0	16
Jun 2020	15	14	0	29
Jul 2020	8	16	4	28
Aug 2020	12	9	2	23
Sep 2020	10	5	0	15
Oct 2020	5	4	0	9
Nov 2020	4	2	0	6
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Jan 2021	12	5	0	17
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Apr 2021	8	11	0	19
May 2021	7	3	1	11
Jun 2021	10	14	0	24
Jul 2021	5	4	0	9
Aug 2021	4	5	0	9
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Oct 2021	6	38	0	44
Nov 2021	14	31	0	45
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Jan 2022	14	11	2	27
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Mar 2022	6	11	0	17
Apr 2022	4	7	1	12
May 2022	10	5	0	15
Jun 2022	6	4	2	12
Jul 2022	6	5	0	11
Aug 2022	10	31	2	43
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Oct 2022	5	3	1	9
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Dec 2022	14	6	0	20
Jan 2023	12	7	1	20
Feb 2023	12	8	0	20
Mar 2023	15	8	0	23
Apr 2023	6	2	0	8
May 2023	30	5	0	35
Jun 2023	41	4	0	45
Jul 2023	34	10	2	46
Aug 2023	35	7	2	44
Sep 2023	35	6	1	42
Oct 2023	39	3	1	43
Nov 2023	26	4	1	31
Dec 2023	39	10	2	51
Jan 2024	33	9	1	43
Feb 2024	39	6	0	45
Mar 2024	45	15	2	62
Apr 2024	38	6	2	46
May 2024	18	7	7	32
Jun 2024	36	6	1	43
Jul 2024	18	8	4	30
Aug 2024	23	5	2	30
Sep 2024	6	10	0	16
Oct 2024	16	6	0	22
Nov 2024	10	7	4	21
Dec 2024	14	5	2	21
Jan 2025	18	10	1	29
Feb 2025	33	19	2	54
Mar 2025	19	9	2	30
Apr 2025	18	13	2	33
May 2025	27	8	6	41
Jun 2025	45	14	1	60
Jul 2025	27	11	1	39
Aug 2025	31	27	1	59
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Oct 2025	25	25	0	50
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Cumulative views and downloads (calculated since 05 Dec 2016)

Month	HTML	PDF	XML	Total
Dec 2016	94	30	2	126
Jan 2017	41	15	2	58
Feb 2017	36	7	3	46
Mar 2017	46	3	8	57
Apr 2017	47	3	9	59
May 2017	37	8	7	52
Jun 2017	30	4	34
Jul 2017	203	59	5	267
Aug 2017	73	32	3	108
Sep 2017	33	19	4	56
Oct 2017	18	12	0	30
Nov 2017	21	16	2	39
Dec 2017	21	9	2	32
Jan 2018	19	17	1	37
Feb 2018	13	13	0	26
Mar 2018	28	21	1	50
Apr 2018	17	13	1	31
May 2018	19	13	1	33
Jun 2018	15	10	0	25
Jul 2018	8	11	0	19
Aug 2018	17	12	0	29
Sep 2018	12	16	0	28
Oct 2018	16	12	2	30
Nov 2018	37	9	0	46
Dec 2018	18	6	1	25
Jan 2019	13	7	1	21
Feb 2019	4	5	0	9
Mar 2019	7	13	0	20
Apr 2019	11	6	0	17
May 2019	6	4	2	12
Jun 2019	8	8	0	16
Jul 2019	6	9	0	15
Aug 2019	10	5	0	15
Sep 2019	5	2	0	7
Oct 2019	8	8	3	19
Nov 2019	6	2	0	8
Dec 2019	2	5	0	7
Jan 2020	8	4	1	13
Feb 2020	7	3	1	11
Mar 2020	4	1	0	5
Apr 2020	10	9	0	19
May 2020	9	7	0	16
Jun 2020	15	14	0	29
Jul 2020	8	16	4	28
Aug 2020	12	9	2	23
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Oct 2020	5	4	0	9
Nov 2020	4	2	0	6
Dec 2020	7	5	0	12
Jan 2021	12	5	0	17
Feb 2021	4	1	0	5
Mar 2021	12	5	0	17
Apr 2021	8	11	0	19
May 2021	7	3	1	11
Jun 2021	10	14	0	24
Jul 2021	5	4	0	9
Aug 2021	4	5	0	9
Sep 2021	11	8	0	19
Oct 2021	6	38	0	44
Nov 2021	14	31	0	45
Dec 2021	11	8	1	20
Jan 2022	14	11	2	27
Feb 2022	12	6	1	19
Mar 2022	6	11	0	17
Apr 2022	4	7	1	12
May 2022	10	5	0	15
Jun 2022	6	4	2	12
Jul 2022	6	5	0	11
Aug 2022	10	31	2	43
Sep 2022	7	2	0	9
Oct 2022	5	3	1	9
Nov 2022	7	6	0	13
Dec 2022	14	6	0	20
Jan 2023	12	7	1	20
Feb 2023	12	8	0	20
Mar 2023	15	8	0	23
Apr 2023	6	2	0	8
May 2023	30	5	0	35
Jun 2023	41	4	0	45
Jul 2023	34	10	2	46
Aug 2023	35	7	2	44
Sep 2023	35	6	1	42
Oct 2023	39	3	1	43
Nov 2023	26	4	1	31
Dec 2023	39	10	2	51
Jan 2024	33	9	1	43
Feb 2024	39	6	0	45
Mar 2024	45	15	2	62
Apr 2024	38	6	2	46
May 2024	18	7	7	32
Jun 2024	36	6	1	43
Jul 2024	18	8	4	30
Aug 2024	23	5	2	30
Sep 2024	6	10	0	16
Oct 2024	16	6	0	22
Nov 2024	10	7	4	21
Dec 2024	14	5	2	21
Jan 2025	18	10	1	29
Feb 2025	33	19	2	54
Mar 2025	19	9	2	30
Apr 2025	18	13	2	33
May 2025	27	8	6	41
Jun 2025	45	14	1	60
Jul 2025	27	11	1	39
Aug 2025	31	27	1	59
Sep 2025	33	22	1	56
Oct 2025	25	25	0	50
Nov 2025	7	3	0	10

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Short summary

In this study, we find that SST increases of a specific ocean in the Northern Hemisphere tend to increase summertime surface O₃ concentrations over upwind continents while reducing those over downwind regions. It also promotes a more stagnant climate, which tends to suppress O₃ long-range transport. Our findings indicate a robust linkage between basin-scale SST variability and continental surface O₃ pollution, which should be taken into account for air quality management.


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