Potential of future stratospheric ozone loss in the midlatitudes under global warming and sulfate geoengineering

Sabine Robrecht, Bärbel Vogel, Simone Tilmes, and Rolf Müller

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Total: 4,479
BibTeX: 84
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Views and downloads (calculated since 06 Aug 2020)

Month	HTML	PDF	XML	Total
Aug 2020	96	44	2	142
Sep 2020	8	3	0	11
Oct 2020	15	6	0	21
Nov 2020	16	8	0	24
Dec 2020	19	10	1	30
Jan 2021	18	8	0	26
Feb 2021	216	60	6	282
Mar 2021	146	33	1	180
Apr 2021	106	17	1	124
May 2021	85	17	1	103
Jun 2021	81	14	0	95
Jul 2021	69	19	1	89
Aug 2021	78	15	0	93
Sep 2021	66	22	1	89
Oct 2021	57	43	1	101
Nov 2021	117	38	0	155
Dec 2021	64	8	2	74
Jan 2022	25	10	0	35
Feb 2022	33	13	1	47
Mar 2022	29	9	0	38
Apr 2022	12	10	2	24
May 2022	45	11	1	57
Jun 2022	13	11	0	24
Jul 2022	59	2	0	61
Aug 2022	90	13	0	103
Sep 2022	19	9	0	28
Oct 2022	17	6	2	25
Nov 2022	26	16	0	42
Dec 2022	22	9	0	31
Jan 2023	16	9	0	25
Feb 2023	33	8	0	41
Mar 2023	20	9	0	29
Apr 2023	19	10	2	31
May 2023	21	10	0	31
Jun 2023	22	8	1	31
Jul 2023	81	28	1	110
Aug 2023	34	26	2	62
Sep 2023	140	10	0	150
Oct 2023	234	27	2	263
Nov 2023	126	9	3	138
Dec 2023	29	15	2	46
Jan 2024	21	13	1	35
Feb 2024	62	23	0	85
Mar 2024	21	22	3	46
Apr 2024	36	16	2	54
May 2024	32	10	5	47
Jun 2024	64	12	3	79
Jul 2024	35	11	3	49
Aug 2024	22	19	2	43
Sep 2024	27	6	0	33
Oct 2024	24	5	0	29
Nov 2024	24	9	1	34
Dec 2024	22	8	1	31
Jan 2025	26	15	0	41
Feb 2025	46	19	2	67
Mar 2025	19	10	0	29
Apr 2025	22	13	1	36
May 2025	30	11	0	41
Jun 2025	45	22	0	67
Jul 2025	23	17	3	43
Aug 2025	57	20	0	77
Sep 2025	180	11	2	193
Oct 2025	55	15	2	72
Nov 2025	113	13	6	132
Dec 2025	3	2	0	5

Cumulative views and downloads (calculated since 06 Aug 2020)

Month	HTML	PDF	XML	Total
Aug 2020	96	44	2	142
Sep 2020	8	3	0	11
Oct 2020	15	6	0	21
Nov 2020	16	8	0	24
Dec 2020	19	10	1	30
Jan 2021	18	8	0	26
Feb 2021	216	60	6	282
Mar 2021	146	33	1	180
Apr 2021	106	17	1	124
May 2021	85	17	1	103
Jun 2021	81	14	0	95
Jul 2021	69	19	1	89
Aug 2021	78	15	0	93
Sep 2021	66	22	1	89
Oct 2021	57	43	1	101
Nov 2021	117	38	0	155
Dec 2021	64	8	2	74
Jan 2022	25	10	0	35
Feb 2022	33	13	1	47
Mar 2022	29	9	0	38
Apr 2022	12	10	2	24
May 2022	45	11	1	57
Jun 2022	13	11	0	24
Jul 2022	59	2	0	61
Aug 2022	90	13	0	103
Sep 2022	19	9	0	28
Oct 2022	17	6	2	25
Nov 2022	26	16	0	42
Dec 2022	22	9	0	31
Jan 2023	16	9	0	25
Feb 2023	33	8	0	41
Mar 2023	20	9	0	29
Apr 2023	19	10	2	31
May 2023	21	10	0	31
Jun 2023	22	8	1	31
Jul 2023	81	28	1	110
Aug 2023	34	26	2	62
Sep 2023	140	10	0	150
Oct 2023	234	27	2	263
Nov 2023	126	9	3	138
Dec 2023	29	15	2	46
Jan 2024	21	13	1	35
Feb 2024	62	23	0	85
Mar 2024	21	22	3	46
Apr 2024	36	16	2	54
May 2024	32	10	5	47
Jun 2024	64	12	3	79
Jul 2024	35	11	3	49
Aug 2024	22	19	2	43
Sep 2024	27	6	0	33
Oct 2024	24	5	0	29
Nov 2024	24	9	1	34
Dec 2024	22	8	1	31
Jan 2025	26	15	0	41
Feb 2025	46	19	2	67
Mar 2025	19	10	0	29
Apr 2025	22	13	1	36
May 2025	30	11	0	41
Jun 2025	45	22	0	67
Jul 2025	23	17	3	43
Aug 2025	57	20	0	77
Sep 2025	180	11	2	193
Oct 2025	55	15	2	72
Nov 2025	113	13	6	132
Dec 2025	3	2	0	5

HTML	PDF	XML	Total	BibTeX	EndNote
3,108	627	67	3,802	72	96

HTML	PDF	XML	Total	BibTeX	EndNote
323	348	6	677	12	16

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Total article views: 4,479 (including HTML, PDF, and XML) Thereof 4,479 with geography defined and 0 with unknown origin.

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Latest update: 03 Dec 2025

Short summary

Column ozone protects life on Earth from radiation damage. Stratospheric chlorine compounds cause immense ozone loss in polar winter. Whether similar loss processes can occur in the lower stratosphere above North America today or in future is a matter of debate. We show that these ozone loss processes are very unlikely today or in future independently of whether sulfate geoengineering is applied and that less than 0.1 % of column ozone would be destroyed by this process in any future scenario.