On the use of satellite observations to fill gaps in the Halley station total ozone record

Zhang, Lily N.; Solomon, Susan; Stone, Kane A.; Shanklin, Jonathan D.; Eveson, Joshua D.; Colwell, Steve; Burrows, John P.; Weber, Mark; Levelt, Pieternel F.; Kramarova, Natalya A.; Haffner, David P.

doi:https://doi.org/10.5194/acp-21-9829-2021

Articles | Volume 21, issue 12

https://doi.org/10.5194/acp-21-9829-2021

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

https://doi.org/10.5194/acp-21-9829-2021

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

Articles | Volume 21, issue 12

Research article

|

30 Jun 2021

Research article |

| 30 Jun 2021

On the use of satellite observations to fill gaps in the Halley station total ozone record

Lily N. Zhang, Susan Solomon, Kane A. Stone, Jonathan D. Shanklin, Joshua D. Eveson, Steve Colwell, John P. Burrows, Mark Weber, Pieternel F. Levelt, Natalya A. Kramarova, and David P. Haffner

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Total article views: 2,888 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
1,898	927	63	2,888	141	58	60

HTML: 1,898
PDF: 927
XML: 63
Total: 2,888
Supplement: 141
BibTeX: 58
EndNote: 60

Views and downloads (calculated since 22 Feb 2021)

Month	HTML	PDF	XML	Total
Feb 2021	99	35	3	137
Mar 2021	53	15	2	70
Apr 2021	40	16	2	58
May 2021	47	19	7	73
Jun 2021	115	33	2	150
Jul 2021	234	67	2	303
Aug 2021	77	33	1	111
Sep 2021	92	34	0	126
Oct 2021	84	123	0	207
Nov 2021	92	59	1	152
Dec 2021	76	24	1	101
Jan 2022	38	23	2	63
Feb 2022	28	10	1	39
Mar 2022	11	11	0	22
Apr 2022	15	12	1	28
May 2022	10	7	0	17
Jun 2022	15	7	0	22
Jul 2022	22	5	0	27
Aug 2022	44	9	1	54
Sep 2022	43	13	0	56
Oct 2022	29	4	1	34
Nov 2022	20	8	0	28
Dec 2022	22	15	0	37
Jan 2023	29	29	2	60
Feb 2023	21	17	1	39
Mar 2023	19	15	1	35
Apr 2023	10	13	0	23
May 2023	12	5	0	17
Jun 2023	15	10	2	27
Jul 2023	13	12	2	27
Aug 2023	19	17	1	37
Sep 2023	7	3	0	10
Oct 2023	29	7	1	37
Nov 2023	12	4	0	16
Dec 2023	23	11	0	34
Jan 2024	24	8	0	32
Feb 2024	30	15	2	47
Mar 2024	23	23	3	49
Apr 2024	18	10	3	31
May 2024	25	19	5	49
Jun 2024	24	5	1	30
Jul 2024	40	7	1	48
Aug 2024	16	9	3	28
Sep 2024	20	14	0	34
Oct 2024	16	19	0	35
Nov 2024	11	8	2	21
Dec 2024	15	12	1	28
Jan 2025	18	11	0	29
Feb 2025	32	13	4	49
Mar 2025	22	15	1	38
Apr 2025	21	6	0	27
May 2025	28	8	0	36

Cumulative views and downloads (calculated since 22 Feb 2021)

Month	HTML	PDF	XML	Total
Feb 2021	99	35	3	137
Mar 2021	53	15	2	70
Apr 2021	40	16	2	58
May 2021	47	19	7	73
Jun 2021	115	33	2	150
Jul 2021	234	67	2	303
Aug 2021	77	33	1	111
Sep 2021	92	34	0	126
Oct 2021	84	123	0	207
Nov 2021	92	59	1	152
Dec 2021	76	24	1	101
Jan 2022	38	23	2	63
Feb 2022	28	10	1	39
Mar 2022	11	11	0	22
Apr 2022	15	12	1	28
May 2022	10	7	0	17
Jun 2022	15	7	0	22
Jul 2022	22	5	0	27
Aug 2022	44	9	1	54
Sep 2022	43	13	0	56
Oct 2022	29	4	1	34
Nov 2022	20	8	0	28
Dec 2022	22	15	0	37
Jan 2023	29	29	2	60
Feb 2023	21	17	1	39
Mar 2023	19	15	1	35
Apr 2023	10	13	0	23
May 2023	12	5	0	17
Jun 2023	15	10	2	27
Jul 2023	13	12	2	27
Aug 2023	19	17	1	37
Sep 2023	7	3	0	10
Oct 2023	29	7	1	37
Nov 2023	12	4	0	16
Dec 2023	23	11	0	34
Jan 2024	24	8	0	32
Feb 2024	30	15	2	47
Mar 2024	23	23	3	49
Apr 2024	18	10	3	31
May 2024	25	19	5	49
Jun 2024	24	5	1	30
Jul 2024	40	7	1	48
Aug 2024	16	9	3	28
Sep 2024	20	14	0	34
Oct 2024	16	19	0	35
Nov 2024	11	8	2	21
Dec 2024	15	12	1	28
Jan 2025	18	11	0	29
Feb 2025	32	13	4	49
Mar 2025	22	15	1	38
Apr 2025	21	6	0	27
May 2025	28	8	0	36

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Short summary

In the 1980s, measurements at the British Antarctic Survey station in Halley, Antarctica, led to the discovery of the ozone hole. The Halley total ozone record continues to be uniquely valuable for studies of long-term changes in Antarctic ozone. Environmental conditions in 2017 forced a temporary cessation of operations, leading to a gap in the historic record. We develop and test a method for filling in the Halley record using satellite data and find evidence to further support ozone recovery.

On the use of satellite observations to fill gaps in the Halley station total ozone record

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