On ozone trend detection: using coupled chemistry–climate simulations to investigate early signs of total column ozone recovery

Keeble, James; Brown, Hannah; Abraham, N. Luke; Harris, Neil R. P.; Pyle, John A.

doi:https://doi.org/10.5194/acp-18-7625-2018

Articles | Volume 18, issue 10

https://doi.org/10.5194/acp-18-7625-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-18-7625-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 18, issue 10

Research article

| Highlight paper

|

01 Jun 2018

Research article | Highlight paper |

| 01 Jun 2018

On ozone trend detection: using coupled chemistry–climate simulations to investigate early signs of total column ozone recovery

James Keeble, Hannah Brown, N. Luke Abraham, Neil R. P. Harris, and John A. Pyle

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Total article views: 5,712 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
4,559	1,038	115	5,712	94	110

HTML: 4,559
PDF: 1,038
XML: 115
Total: 5,712
BibTeX: 94
EndNote: 110

Views and downloads (calculated since 22 Dec 2017)

Month	HTML	PDF	XML	Total
Dec 2017	137	51	4	192
Jan 2018	98	29	5	132
Feb 2018	28	9	5	42
Mar 2018	16	10	0	26
Apr 2018	25	8	0	33
May 2018	19	12	0	31
Jun 2018	424	121	12	557
Jul 2018	57	29	1	87
Aug 2018	44	16	2	62
Sep 2018	27	24	0	51
Oct 2018	29	23	1	53
Nov 2018	37	21	1	59
Dec 2018	23	8	0	31
Jan 2019	23	5	0	28
Feb 2019	10	8	0	18
Mar 2019	29	10	1	40
Apr 2019	34	11	0	45
May 2019	49	18	0	67
Jun 2019	51	11	2	64
Jul 2019	41	8	2	51
Aug 2019	41	16	0	57
Sep 2019	47	9	1	57
Oct 2019	53	12	0	65
Nov 2019	33	7	1	41
Dec 2019	45	13	0	58
Jan 2020	27	7	1	35
Feb 2020	29	7	2	38
Mar 2020	44	10	1	55
Apr 2020	58	3	0	61
May 2020	77	7	0	84
Jun 2020	49	12	0	61
Jul 2020	58	15	4	77
Aug 2020	51	6	3	60
Sep 2020	56	10	0	66
Oct 2020	38	4	0	42
Nov 2020	27	3	0	30
Dec 2020	52	2	1	55
Jan 2021	83	8	0	91
Feb 2021	54	5	0	59
Mar 2021	64	7	1	72
Apr 2021	69	6	0	75
May 2021	76	11	2	89
Jun 2021	59	4	0	63
Jul 2021	65	10	0	75
Aug 2021	43	8	1	52
Sep 2021	49	13	0	62
Oct 2021	42	25	1	68
Nov 2021	43	28	1	72
Dec 2021	49	17	1	67
Jan 2022	44	10	2	56
Feb 2022	43	17	4	64
Mar 2022	47	5	1	53
Apr 2022	43	6	3	52
May 2022	36	8	0	44
Jun 2022	39	6	0	45
Jul 2022	48	5	2	55
Aug 2022	45	3	0	48
Sep 2022	33	5	0	38
Oct 2022	41	4	1	46
Nov 2022	46	9	0	55
Dec 2022	46	4	1	51
Jan 2023	56	9	3	68
Feb 2023	50	8	0	58
Mar 2023	55	12	0	67
Apr 2023	43	6	0	49
May 2023	70	8	1	79
Jun 2023	81	3	1	85
Jul 2023	64	6	1	71
Aug 2023	67	5	3	75
Sep 2023	82	10	2	94
Oct 2023	85	10	5	100
Nov 2023	41	2	1	44
Dec 2023	62	7	1	70
Jan 2024	47	3	0	50
Feb 2024	46	13	0	59
Mar 2024	52	11	1	64
Apr 2024	51	14	4	69
May 2024	17	13	4	34
Jun 2024	62	16	1	79
Jul 2024	21	14	2	37
Aug 2024	30	10	2	42
Sep 2024	16	5	0	21
Oct 2024	27	3	0	30
Nov 2024	14	4	2	20
Dec 2024	50	4	3	57
Jan 2025	46	7	3	56
Feb 2025	54	6	0	60
Mar 2025	22	14	2	38
Apr 2025	35	12	1	48
May 2025	20	4	1	25

Cumulative views and downloads (calculated since 22 Dec 2017)

Month	HTML	PDF	XML	Total
Dec 2017	137	51	4	192
Jan 2018	98	29	5	132
Feb 2018	28	9	5	42
Mar 2018	16	10	0	26
Apr 2018	25	8	0	33
May 2018	19	12	0	31
Jun 2018	424	121	12	557
Jul 2018	57	29	1	87
Aug 2018	44	16	2	62
Sep 2018	27	24	0	51
Oct 2018	29	23	1	53
Nov 2018	37	21	1	59
Dec 2018	23	8	0	31
Jan 2019	23	5	0	28
Feb 2019	10	8	0	18
Mar 2019	29	10	1	40
Apr 2019	34	11	0	45
May 2019	49	18	0	67
Jun 2019	51	11	2	64
Jul 2019	41	8	2	51
Aug 2019	41	16	0	57
Sep 2019	47	9	1	57
Oct 2019	53	12	0	65
Nov 2019	33	7	1	41
Dec 2019	45	13	0	58
Jan 2020	27	7	1	35
Feb 2020	29	7	2	38
Mar 2020	44	10	1	55
Apr 2020	58	3	0	61
May 2020	77	7	0	84
Jun 2020	49	12	0	61
Jul 2020	58	15	4	77
Aug 2020	51	6	3	60
Sep 2020	56	10	0	66
Oct 2020	38	4	0	42
Nov 2020	27	3	0	30
Dec 2020	52	2	1	55
Jan 2021	83	8	0	91
Feb 2021	54	5	0	59
Mar 2021	64	7	1	72
Apr 2021	69	6	0	75
May 2021	76	11	2	89
Jun 2021	59	4	0	63
Jul 2021	65	10	0	75
Aug 2021	43	8	1	52
Sep 2021	49	13	0	62
Oct 2021	42	25	1	68
Nov 2021	43	28	1	72
Dec 2021	49	17	1	67
Jan 2022	44	10	2	56
Feb 2022	43	17	4	64
Mar 2022	47	5	1	53
Apr 2022	43	6	3	52
May 2022	36	8	0	44
Jun 2022	39	6	0	45
Jul 2022	48	5	2	55
Aug 2022	45	3	0	48
Sep 2022	33	5	0	38
Oct 2022	41	4	1	46
Nov 2022	46	9	0	55
Dec 2022	46	4	1	51
Jan 2023	56	9	3	68
Feb 2023	50	8	0	58
Mar 2023	55	12	0	67
Apr 2023	43	6	0	49
May 2023	70	8	1	79
Jun 2023	81	3	1	85
Jul 2023	64	6	1	71
Aug 2023	67	5	3	75
Sep 2023	82	10	2	94
Oct 2023	85	10	5	100
Nov 2023	41	2	1	44
Dec 2023	62	7	1	70
Jan 2024	47	3	0	50
Feb 2024	46	13	0	59
Mar 2024	52	11	1	64
Apr 2024	51	14	4	69
May 2024	17	13	4	34
Jun 2024	62	16	1	79
Jul 2024	21	14	2	37
Aug 2024	30	10	2	42
Sep 2024	16	5	0	21
Oct 2024	27	3	0	30
Nov 2024	14	4	2	20
Dec 2024	50	4	3	57
Jan 2025	46	7	3	56
Feb 2025	54	6	0	60
Mar 2025	22	14	2	38
Apr 2025	35	12	1	48
May 2025	20	4	1	25

Viewed (geographical distribution)

Total article views: 5,712 (including HTML, PDF, and XML) Thereof 5,677 with geography defined and 35 with unknown origin.

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1

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Discussed (final revised paper)

Latest update: 31 May 2025

Short summary

2017 marks the 30th anniversary of the Montreal Protocol, which was implemented to protect the stratospheric ozone layer from the harmful effects of synthetic ozone depleting substances. Since the late 1990s atmospheric concentrations of these species have begun to decline, and as a result ozone concentrations are expected to increase. In this study we use an ensemble of chemistry–climate simulations to investigate recent ozone trends and search for early signs of ozone recovery.

On ozone trend detection: using coupled chemistry–climate simulations to investigate early signs of total column ozone recovery

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Cited

16 citations as recorded by crossref.

16 citations as recorded by crossref.

Discussed (final revised paper)


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