Strong modification of stratospheric ozone forcing by cloud and sea-ice adjustments

Xia, Yan; Hu, Yongyun; Huang, Yi

doi:10.5194/acp-16-7559-2016

Articles | Volume 16, issue 12

https://doi.org/10.5194/acp-16-7559-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/acp-16-7559-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 16, issue 12

Research article

|

21 Jun 2016

Research article |

| 21 Jun 2016

Strong modification of stratospheric ozone forcing by cloud and sea-ice adjustments

Yan Xia, Yongyun Hu, and Yi Huang

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Total article views: 5,175 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,594	2,477	104	5,175	120	146

HTML: 2,594
PDF: 2,477
XML: 104
Total: 5,175
BibTeX: 120
EndNote: 146

Views and downloads (calculated since 23 Mar 2016)

Month	HTML	PDF	XML	Total
Mar 2016	199	60	4	263
Apr 2016	51	32	2	85
May 2016	58	19	0	77
Jun 2016	96	24	2	122
Jul 2016	41	16	2	59
Aug 2016	25	8	0	33
Sep 2016	22	15	1	38
Oct 2016	16	4	1	21
Nov 2016	10	5	0	15
Dec 2016	5	2	0	7
Jan 2017	22	6	0	28
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Mar 2017	24	13	1	38
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May 2017	18	8	0	26
Jun 2017	18	5	1	24
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Aug 2017	13	10	3	26
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Oct 2017	13	137	0	150
Nov 2017	10	124	0	134
Dec 2017	12	38	0	50
Jan 2018	10	121	0	131
Feb 2018	12	119	0	131
Mar 2018	17	90	0	107
Apr 2018	10	105	1	116
May 2018	19	114	1	134
Jun 2018	6	83	0	89
Jul 2018	10	64	0	74
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Mar 2023	42	10	1	53
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Jun 2024	29	13	1	43
Jul 2024	25	7	3	35
Aug 2024	27	4	2	33
Sep 2024	10	5	0	15
Oct 2024	23	8	0	31
Nov 2024	16	6	4	26
Dec 2024	16	5	4	25
Jan 2025	21	7	3	31
Feb 2025	49	13	1	63
Mar 2025	23	11	0	34
Apr 2025	21	20	0	41
May 2025	32	6	0	38
Jun 2025	46	12	3	61
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Aug 2025	46	10	3	59
Sep 2025	49	22	1	72
Oct 2025	37	23	3	63
Nov 2025	25	20	0	45

Cumulative views and downloads (calculated since 23 Mar 2016)

Month	HTML	PDF	XML	Total
Mar 2016	199	60	4	263
Apr 2016	51	32	2	85
May 2016	58	19	0	77
Jun 2016	96	24	2	122
Jul 2016	41	16	2	59
Aug 2016	25	8	0	33
Sep 2016	22	15	1	38
Oct 2016	16	4	1	21
Nov 2016	10	5	0	15
Dec 2016	5	2	0	7
Jan 2017	22	6	0	28
Feb 2017	12	10	2	24
Mar 2017	24	13	1	38
Apr 2017	24	14	0	38
May 2017	18	8	0	26
Jun 2017	18	5	1	24
Jul 2017	14	8	0	22
Aug 2017	13	10	3	26
Sep 2017	14	83	0	97
Oct 2017	13	137	0	150
Nov 2017	10	124	0	134
Dec 2017	12	38	0	50
Jan 2018	10	121	0	131
Feb 2018	12	119	0	131
Mar 2018	17	90	0	107
Apr 2018	10	105	1	116
May 2018	19	114	1	134
Jun 2018	6	83	0	89
Jul 2018	10	64	0	74
Aug 2018	19	91	0	110
Sep 2018	7	117	0	124
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Dec 2022	29	2	0	31
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Mar 2023	42	10	1	53
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Dec 2023	53	10	4	67
Jan 2024	49	8	1	58
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May 2024	41	13	2	56
Jun 2024	29	13	1	43
Jul 2024	25	7	3	35
Aug 2024	27	4	2	33
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Oct 2024	23	8	0	31
Nov 2024	16	6	4	26
Dec 2024	16	5	4	25
Jan 2025	21	7	3	31
Feb 2025	49	13	1	63
Mar 2025	23	11	0	34
Apr 2025	21	20	0	41
May 2025	32	6	0	38
Jun 2025	46	12	3	61
Jul 2025	36	17	1	54
Aug 2025	46	10	3	59
Sep 2025	49	22	1	72
Oct 2025	37	23	3	63
Nov 2025	25	20	0	45

Latest update: 21 Nov 2025

Short summary

In this work, we discover a strong cloud radiative adjustment that affects the sign of the global surface temperature change in response to stratospheric ozone forcing. We believe this discovery is both interesting, in that our GCM experiments show that a global cooling can result from a warming forcing, and new, in that a strong cloud adjustment to ozone forcing, to the best of our knowledge, has not being documented before.