Tropical troposphere to stratosphere transport of carbon monoxide and   long-lived trace species in the Chemical Lagrangian Model of the   Stratosphere (CLaMS)

Pommrich, R.; Müller, R.; Grooß, J.-U.; Konopka, P.; Ploeger, F.; Vogel, B.; Tao, M.; Hoppe, C. M.; Günther, G.; Spelten, N.; Hoffmann, L.; Pumphrey, H.-C.; Viciani, S.; D'Amato, F.; Volk, C. M.; Hoor, P.; Schlager, H.; Riese, M.

doi:10.5194/gmd-7-2895-2014

Articles | Volume 7, issue 6

https://doi.org/10.5194/gmd-7-2895-2014

© Author(s) 2014. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/gmd-7-2895-2014

© Author(s) 2014. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 7, issue 6

Model description paper

|

08 Dec 2014

Model description paper |

| 08 Dec 2014

Tropical troposphere to stratosphere transport of carbon monoxide and long-lived trace species in the Chemical Lagrangian Model of the Stratosphere (CLaMS)

R. Pommrich, R. Müller, J.-U. Grooß, P. Konopka, F. Ploeger, B. Vogel, M. Tao, C. M. Hoppe, G. Günther, N. Spelten, L. Hoffmann, H.-C. Pumphrey, S. Viciani, F. D'Amato, C. M. Volk, P. Hoor, H. Schlager, and M. Riese

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Dec 2014	121	72	4	197
Jan 2015	30	35	0	65
Feb 2015	23	11	1	35
Mar 2015	31	9	0	40
Apr 2015	49	17	5	71
May 2015	14	5	1	20
Jun 2015	28	6	1	35
Jul 2015	45	10	1	56
Aug 2015	13	5	0	18
Sep 2015	14	7	0	21
Oct 2015	21	15	2	38
Nov 2015	20	9	0	29
Dec 2015	7	8	0	15
Jan 2016	32	21	4	57
Feb 2016	22	9	1	32
Mar 2016	25	10	1	36
Apr 2016	8	3	1	12
May 2016	24	7	3	34
Jun 2016	15	8	2	25
Jul 2016	16	4	2	22
Aug 2016	21	4	3	28
Sep 2016	12	2	2	16
Oct 2016	20	6	4	30
Nov 2016	21	3	0	24
Dec 2016	24	3	0	27
Jan 2017	50	7	3	60
Feb 2017	34	3	1	38
Mar 2017	65	11	3	79
Apr 2017	72	18	6	96
May 2017	84	16	1	101
Jun 2017	78	20	3	101
Jul 2017	43	7	1	51
Aug 2017	30	7	0	37
Sep 2017	56	12	1	69
Oct 2017	32	3	0	35
Nov 2017	37	8	3	48
Dec 2017	46	3	1	50
Jan 2018	48	10	1	59
Feb 2018	46	9	2	57
Mar 2018	58	6	2	66
Apr 2018	60	5	1	66
May 2018	37	11	1	49
Jun 2018	59	6	0	65
Jul 2018	57	11	2	70
Aug 2018	53	9	1	63
Sep 2018	50	14	0	64
Oct 2018	72	16	3	91
Nov 2018	76	16	1	93
Dec 2018	43	11	0	54
Jan 2019	40	12	1	53
Feb 2019	31	7	0	38
Mar 2019	27	8	1	36
Apr 2019	28	9	0	37
May 2019	15	6	4	25
Jun 2019	9	12	0	21
Jul 2019	16	12	0	28
Aug 2019	35	13	2	50
Sep 2019	19	4	1	24
Oct 2019	40	13	1	54
Nov 2019	32	18	0	50
Dec 2019	25	16	2	43
Jan 2020	49	12	1	62
Feb 2020	19	7	0	26
Mar 2020	17	6	0	23
Apr 2020	18	6	1	25
May 2020	23	10	0	33
Jun 2020	17	7	0	24
Jul 2020	52	39	31	122
Aug 2020	9	8	2	19
Sep 2020	9	5	0	14
Oct 2020	13	8	0	21
Nov 2020	18	17	3	38
Dec 2020	24	10	0	34
Jan 2021	25	13	2	40
Feb 2021	12	11	1	24
Mar 2021	20	11	0	31
Apr 2021	10	9	0	19
May 2021	12	12	0	24
Jun 2021	14	12	0	26
Jul 2021	16	23	0	39
Aug 2021	11	9	0	20
Sep 2021	12	8	0	20
Oct 2021	12	40	1	53
Nov 2021	18	22	0	40
Dec 2021	20	9	0	29
Jan 2022	23	17	1	41
Feb 2022	11	14	1	26
Mar 2022	20	9	0	29
Apr 2022	40	8	1	49
May 2022	39	11	1	51
Jun 2022	44	9	1	54
Jul 2022	30	5	1	36
Aug 2022	46	7	0	53
Sep 2022	37	6	0	43
Oct 2022	58	9	0	67
Nov 2022	45	12	1	58
Dec 2022	41	12	0	53
Jan 2023	41	24	1	66
Feb 2023	49	7	0	56
Mar 2023	51	5	1	57
Apr 2023	42	13	0	55
May 2023	36	18	0	54
Jun 2023	42	13	1	56
Jul 2023	41	7	1	49
Aug 2023	42	12	3	57
Sep 2023	38	15	0	53
Oct 2023	48	14	0	62
Nov 2023	30	5	0	35
Dec 2023	65	11	2	78
Jan 2024	53	16	1	70
Feb 2024	48	13	1	62
Mar 2024	52	20	2	74
Apr 2024	57	9	4	70
May 2024	22	13	4	39
Jun 2024	16	11	2	29
Jul 2024	24	17	1	42
Aug 2024	32	9	4	45
Sep 2024	12	8	0	20
Oct 2024	19	10	0	29
Nov 2024	23	4	1	28
Dec 2024	38	13	2	53
Jan 2025	40	11	1	52
Feb 2025	65	3	3	71
Mar 2025	41	16	1	58
Apr 2025	29	15	0	44
May 2025	23	6	0	29
Jun 2025	46	19	0	65
Jul 2025	31	14	3	48
Aug 2025	84	23	1	108
Sep 2025	85	20	3	108
Oct 2025	38	18	0	56
Nov 2025	43	33	3	79
Dec 2025	37	21	5	63
Jan 2026	22	15	3	40

Cumulative views and downloads (calculated since 08 Aug 2014)

Month	HTML	PDF	XML	Total
Aug 2014	49	208	2	259
Sep 2014	27	33	3	63
Oct 2014	17	13	1	31
Nov 2014	10	8	1	19
Dec 2014	121	72	4	197
Jan 2015	30	35	0	65
Feb 2015	23	11	1	35
Mar 2015	31	9	0	40
Apr 2015	49	17	5	71
May 2015	14	5	1	20
Jun 2015	28	6	1	35
Jul 2015	45	10	1	56
Aug 2015	13	5	0	18
Sep 2015	14	7	0	21
Oct 2015	21	15	2	38
Nov 2015	20	9	0	29
Dec 2015	7	8	0	15
Jan 2016	32	21	4	57
Feb 2016	22	9	1	32
Mar 2016	25	10	1	36
Apr 2016	8	3	1	12
May 2016	24	7	3	34
Jun 2016	15	8	2	25
Jul 2016	16	4	2	22
Aug 2016	21	4	3	28
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Dec 2016	24	3	0	27
Jan 2017	50	7	3	60
Feb 2017	34	3	1	38
Mar 2017	65	11	3	79
Apr 2017	72	18	6	96
May 2017	84	16	1	101
Jun 2017	78	20	3	101
Jul 2017	43	7	1	51
Aug 2017	30	7	0	37
Sep 2017	56	12	1	69
Oct 2017	32	3	0	35
Nov 2017	37	8	3	48
Dec 2017	46	3	1	50
Jan 2018	48	10	1	59
Feb 2018	46	9	2	57
Mar 2018	58	6	2	66
Apr 2018	60	5	1	66
May 2018	37	11	1	49
Jun 2018	59	6	0	65
Jul 2018	57	11	2	70
Aug 2018	53	9	1	63
Sep 2018	50	14	0	64
Oct 2018	72	16	3	91
Nov 2018	76	16	1	93
Dec 2018	43	11	0	54
Jan 2019	40	12	1	53
Feb 2019	31	7	0	38
Mar 2019	27	8	1	36
Apr 2019	28	9	0	37
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Jul 2019	16	12	0	28
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Oct 2020	13	8	0	21
Nov 2020	18	17	3	38
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Jan 2021	25	13	2	40
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Apr 2021	10	9	0	19
May 2021	12	12	0	24
Jun 2021	14	12	0	26
Jul 2021	16	23	0	39
Aug 2021	11	9	0	20
Sep 2021	12	8	0	20
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Nov 2021	18	22	0	40
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Jan 2022	23	17	1	41
Feb 2022	11	14	1	26
Mar 2022	20	9	0	29
Apr 2022	40	8	1	49
May 2022	39	11	1	51
Jun 2022	44	9	1	54
Jul 2022	30	5	1	36
Aug 2022	46	7	0	53
Sep 2022	37	6	0	43
Oct 2022	58	9	0	67
Nov 2022	45	12	1	58
Dec 2022	41	12	0	53
Jan 2023	41	24	1	66
Feb 2023	49	7	0	56
Mar 2023	51	5	1	57
Apr 2023	42	13	0	55
May 2023	36	18	0	54
Jun 2023	42	13	1	56
Jul 2023	41	7	1	49
Aug 2023	42	12	3	57
Sep 2023	38	15	0	53
Oct 2023	48	14	0	62
Nov 2023	30	5	0	35
Dec 2023	65	11	2	78
Jan 2024	53	16	1	70
Feb 2024	48	13	1	62
Mar 2024	52	20	2	74
Apr 2024	57	9	4	70
May 2024	22	13	4	39
Jun 2024	16	11	2	29
Jul 2024	24	17	1	42
Aug 2024	32	9	4	45
Sep 2024	12	8	0	20
Oct 2024	19	10	0	29
Nov 2024	23	4	1	28
Dec 2024	38	13	2	53
Jan 2025	40	11	1	52
Feb 2025	65	3	3	71
Mar 2025	41	16	1	58
Apr 2025	29	15	0	44
May 2025	23	6	0	29
Jun 2025	46	19	0	65
Jul 2025	31	14	3	48
Aug 2025	84	23	1	108
Sep 2025	85	20	3	108
Oct 2025	38	18	0	56
Nov 2025	43	33	3	79
Dec 2025	37	21	5	63
Jan 2026	22	15	3	40

Latest update: 18 Jan 2026

Short summary

A version of the chemical transport model CLaMS is presented, which features a simplified (numerically inexpensive) chemistry scheme. The model results using this version of CLaMS show a good representation of anomaly fields of CO, CH4, N2O, and CFC-11 in the lower stratosphere. CO measurements of three instruments (COLD, HAGAR, and Falcon-CO) in the lower tropical stratosphere (during the campaign TROCCINOX in 2005) have been compared and show a good agreement within the error bars.