Variability of temperature and ozone in the upper troposphere  and lower stratosphere from multi-satellite observations  and reanalysis data

Shangguan, Ming; Wang, Wuke; Jin, Shuanggen

doi:10.5194/acp-19-6659-2019

Articles | Volume 19, issue 10

https://doi.org/10.5194/acp-19-6659-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

The SPARC Reanalysis Intercomparison Project (S-RIP) (ACP/ESSD...

https://doi.org/10.5194/acp-19-6659-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 10

Research article

|

20 May 2019

Research article |

| 20 May 2019

Variability of temperature and ozone in the upper troposphere and lower stratosphere from multi-satellite observations and reanalysis data

Ming Shangguan, Wuke Wang, and Shuanggen Jin

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Jan 2020	23	11	0	34
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Jan 2022	14	11	0	25
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Apr 2022	13	3	0	16
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Jun 2022	20	5	1	26
Jul 2022	44	10	0	54
Aug 2022	56	13	1	70
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Nov 2022	33	15	0	48
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Jan 2023	38	16	2	56
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Jun 2023	41	11	1	53
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Dec 2024	47	10	0	57
Jan 2025	59	18	1	78
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Mar 2025	67	8	2	77
Apr 2025	44	37	2	83
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Jun 2025	73	24	2	99
Jul 2025	57	28	2	87
Aug 2025	71	35	1	107
Sep 2025	178	13	4	195
Oct 2025	62	42	0	104
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Dec 2025	112	251	1	364
Jan 2026	204	43	11	258
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Mar 2026	71	25	5	101
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Cumulative views and downloads (calculated since 17 Dec 2018)

Month	HTML	PDF	XML	Total
Dec 2018	196	39	3	238
Jan 2019	128	25	1	154
Feb 2019	43	15	1	59
Mar 2019	18	12	0	30
Apr 2019	9	18	0	27
May 2019	226	68	2	296
Jun 2019	78	32	1	111
Jul 2019	44	17	0	61
Aug 2019	25	24	1	50
Sep 2019	7	16	0	23
Oct 2019	9	16	1	26
Nov 2019	21	16	1	38
Dec 2019	16	15	0	31
Jan 2020	23	11	0	34
Feb 2020	22	12	4	38
Mar 2020	16	11	0	27
Apr 2020	23	10	0	33
May 2020	19	9	0	28
Jun 2020	21	17	0	38
Jul 2020	21	24	5	50
Aug 2020	24	20	0	44
Sep 2020	16	12	1	29
Oct 2020	17	12	0	29
Nov 2020	16	8	0	24
Dec 2020	20	12	0	32
Jan 2021	18	14	1	33
Feb 2021	24	17	0	41
Mar 2021	37	20	1	58
Apr 2021	24	16	0	40
May 2021	14	9	2	25
Jun 2021	16	13	0	29
Jul 2021	17	21	0	38
Aug 2021	15	12	0	27
Sep 2021	19	13	1	33
Oct 2021	31	34	0	65
Nov 2021	31	38	1	70
Dec 2021	28	16	2	46
Jan 2022	14	11	0	25
Feb 2022	20	11	1	32
Mar 2022	26	17	1	44
Apr 2022	13	3	0	16
May 2022	12	5	0	17
Jun 2022	20	5	1	26
Jul 2022	44	10	0	54
Aug 2022	56	13	1	70
Sep 2022	49	7	0	56
Oct 2022	34	18	4	56
Nov 2022	33	15	0	48
Dec 2022	30	11	1	42
Jan 2023	38	16	2	56
Feb 2023	32	6	1	39
Mar 2023	53	20	3	76
Apr 2023	18	12	0	30
May 2023	47	18	0	65
Jun 2023	41	11	1	53
Jul 2023	27	13	2	42
Aug 2023	34	11	2	47
Sep 2023	60	19	1	80
Oct 2023	84	4	1	89
Nov 2023	56	4	0	60
Dec 2023	100	19	7	126
Jan 2024	32	10	0	42
Feb 2024	50	14	0	64
Mar 2024	77	22	2	101
Apr 2024	41	20	5	66
May 2024	100	22	2	124
Jun 2024	62	12	2	76
Jul 2024	336	13	2	351
Aug 2024	60	11	3	74
Sep 2024	45	7	0	52
Oct 2024	44	32	1	77
Nov 2024	44	9	2	55
Dec 2024	47	10	0	57
Jan 2025	59	18	1	78
Feb 2025	75	34	1	110
Mar 2025	67	8	2	77
Apr 2025	44	37	2	83
May 2025	53	24	3	80
Jun 2025	73	24	2	99
Jul 2025	57	28	2	87
Aug 2025	71	35	1	107
Sep 2025	178	13	4	195
Oct 2025	62	42	0	104
Nov 2025	114	47	5	166
Dec 2025	112	251	1	364
Jan 2026	204	43	11	258
Feb 2026	111	22	5	138
Mar 2026	71	25	5	101
Apr 2026	17	22	3	42

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Short summary

A significant warming in the troposphere and cooling in the stratosphere are found in satellite measurements (2002–2017). The newest ERA5 data are first used for analyzing temperature and ozone trends in the UTLS and show the best quality compared to other reanalyses. According to model simulations, the temperature increase in the troposphere and ozone decrease in the NH stratosphere are mainly connected to a surface warming of the ocean and subsequent changes in atmospheric circulation.


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