Using satellite measurements of N<sub>2</sub>O to remove dynamical variability from HCl measurements

Stolarski, Richard S.; Douglass, Anne R.; Strahan, Susan E.

doi:https://doi.org/10.5194/acp-18-5691-2018

Articles | Volume 18, issue 8

https://doi.org/10.5194/acp-18-5691-2018

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

Special issue:

Quadrennial Ozone Symposium 2016 – Status and trends...

https://doi.org/10.5194/acp-18-5691-2018

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

Articles | Volume 18, issue 8

Research article

| Highlight paper

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24 Apr 2018

Research article | Highlight paper |

| 24 Apr 2018

Using satellite measurements of N₂O to remove dynamical variability from HCl measurements

Richard S. Stolarski, Anne R. Douglass, and Susan E. Strahan

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Jun 2021	122	11	1	134
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Jan 2023	39	7	0	46
Feb 2023	40	9	0	49
Mar 2023	45	7	0	52
Apr 2023	41	8	0	49
May 2023	46	6	0	52
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Nov 2023	28	0	28
Dec 2023	22	5	2	29
Jan 2024	13	4	1	18
Feb 2024	10	6	0	16
Mar 2024	20	18	2	40
Apr 2024	18	13	2	33
May 2024	19	14	7	40
Jun 2024	34	5	2	41
Jul 2024	34	4	0	38
Aug 2024	21	7	1	29
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Oct 2024	20	4	0	24
Nov 2024	12	1	0	13

Cumulative views and downloads (calculated since 11 Dec 2017)

Month	HTML	PDF	XML	Total
Dec 2017	107	31	4	142
Jan 2018	35	13	1	49
Feb 2018	28	7	4	39
Mar 2018	14	7	0	21
Apr 2018	195	61	8	264
May 2018	131	47	6	184
Jun 2018	56	26	0	82
Jul 2018	14	13	1	28
Aug 2018	25	11	1	37
Sep 2018	17	14	0	31
Oct 2018	14	6	1	21
Nov 2018	18	11	0	29
Dec 2018	12	9	4	25
Jan 2019	13	14	1	28
Feb 2019	6	3	1	10
Mar 2019	32	12	0	44
Apr 2019	28	6	0	34
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Jun 2019	41	4	0	45
Jul 2019	30	4	1	35
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Oct 2020	21	6	0	27
Nov 2020	31	5	0	36
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Jan 2021	50	8	0	58
Feb 2021	50	5	0	55
Mar 2021	58	2	1	61
Apr 2021	52	6	0	58
May 2021	58	4	2	64
Jun 2021	122	11	1	134
Jul 2021	55	6	0	61
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Feb 2022	44	6	6	56
Mar 2022	39	8	1	48
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Jun 2022	39	2	1	42
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Aug 2022	57	4	0	61
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Oct 2023	44	9	3	56
Nov 2023	28	0	28
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Feb 2024	10	6	0	16
Mar 2024	20	18	2	40
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May 2024	19	14	7	40
Jun 2024	34	5	2	41
Jul 2024	34	4	0	38
Aug 2024	21	7	1	29
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Short summary

Detecting trends in short data sets of stratospheric molecules is difficult because of variability due to dynamical fluctuations. We suggest that one way around this difficulty is using the measurements of one molecule to remove dynamical variability from the measurements of another molecule. We illustrate this using Aura MLS measurements of N₂O to help us sort out issues in the determination of trends in HCl. This shows that HCl is decreasing throughout the middle stratosphere as expected.

Using satellite measurements of N₂O to remove dynamical variability from HCl measurements

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Using satellite measurements of N2O to remove dynamical variability from HCl measurements

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8 citations as recorded by crossref.

Discussed (final revised paper)

Using satellite measurements of N₂O to remove dynamical variability from HCl measurements