Dipole pattern of summer ozone pollution in the east  of China and its connection with climate variability

Ma, Xiaoqing; Yin, Zhicong

doi:https://doi.org/10.5194/acp-21-16349-2021

Articles | Volume 21, issue 21

https://doi.org/10.5194/acp-21-16349-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-21-16349-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 21, issue 21

Research article

|

08 Nov 2021

Research article |

| 08 Nov 2021

Dipole pattern of summer ozone pollution in the east of China and its connection with climate variability

Xiaoqing Ma and Zhicong Yin

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Total article views: 3,782 (including HTML, PDF, and XML)

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3,155	568	59	3,782	179	38	51

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Total: 3,782
Supplement: 179
BibTeX: 38
EndNote: 51

Views and downloads (calculated since 24 Aug 2021)

Month	HTML	PDF	XML	Total
Aug 2021	210	48	2	260
Sep 2021	120	22	4	146
Oct 2021	108	17	4	129
Nov 2021	416	68	5	489
Dec 2021	144	21	1	166
Jan 2022	86	24	0	110
Feb 2022	50	15	1	66
Mar 2022	61	18	0	79
Apr 2022	82	15	1	98
May 2022	104	14	0	118
Jun 2022	112	5	1	118
Jul 2022	79	5	0	84
Aug 2022	63	11	3	77
Sep 2022	71	11	0	82
Oct 2022	62	8	3	73
Nov 2022	45	7	0	52
Dec 2022	79	6	0	85
Jan 2023	105	17	0	122
Feb 2023	87	8	0	95
Mar 2023	81	12	3	96
Apr 2023	91	9	0	100
May 2023	78	7	0	85
Jun 2023	78	6	1	85
Jul 2023	88	22	1	111
Aug 2023	40	12	4	56
Sep 2023	51	5	0	56
Oct 2023	40	8	1	49
Nov 2023	43	4	0	47
Dec 2023	26	8	1	35
Jan 2024	38	6	1	45
Feb 2024	32	13	0	45
Mar 2024	39	28	0	67
Apr 2024	43	13	8	64
May 2024	61	10	3	74
Jun 2024	70	17	2	89
Jul 2024	48	8	5	61
Aug 2024	41	18	2	61
Sep 2024	31	9	0	40
Oct 2024	35	9	1	45
Nov 2024	17	4	1	22

Cumulative views and downloads (calculated since 24 Aug 2021)

Month	HTML	PDF	XML	Total
Aug 2021	210	48	2	260
Sep 2021	120	22	4	146
Oct 2021	108	17	4	129
Nov 2021	416	68	5	489
Dec 2021	144	21	1	166
Jan 2022	86	24	0	110
Feb 2022	50	15	1	66
Mar 2022	61	18	0	79
Apr 2022	82	15	1	98
May 2022	104	14	0	118
Jun 2022	112	5	1	118
Jul 2022	79	5	0	84
Aug 2022	63	11	3	77
Sep 2022	71	11	0	82
Oct 2022	62	8	3	73
Nov 2022	45	7	0	52
Dec 2022	79	6	0	85
Jan 2023	105	17	0	122
Feb 2023	87	8	0	95
Mar 2023	81	12	3	96
Apr 2023	91	9	0	100
May 2023	78	7	0	85
Jun 2023	78	6	1	85
Jul 2023	88	22	1	111
Aug 2023	40	12	4	56
Sep 2023	51	5	0	56
Oct 2023	40	8	1	49
Nov 2023	43	4	0	47
Dec 2023	26	8	1	35
Jan 2024	38	6	1	45
Feb 2024	32	13	0	45
Mar 2024	39	28	0	67
Apr 2024	43	13	8	64
May 2024	61	10	3	74
Jun 2024	70	17	2	89
Jul 2024	48	8	5	61
Aug 2024	41	18	2	61
Sep 2024	31	9	0	40
Oct 2024	35	9	1	45
Nov 2024	17	4	1	22

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Total article views: 3,782 (including HTML, PDF, and XML) Thereof 3,784 with geography defined and -2 with unknown origin.

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Short summary

Severe ozone pollution frequently occurred in the east of China and obviously damages human health. The meteorological conditions effectively affect the variations in ozone pollution by modulating the natural emissions of ozone precursors and photochemical reactions in the atmosphere. In this study, a south–north dipole pattern of summer-mean ozone concentration in the east of China was identified, and its connections with preceding climate variability at different latitudes were also examined.

Dipole pattern of summer ozone pollution in the east of China and its connection with climate variability

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11 citations as recorded by crossref.

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