Tropospheric mixing and parametrization of unresolved convective updrafts as implemented in the Chemical Lagrangian Model of the Stratosphere (CLaMS v2.0)

Konopka, Paul; Tao, Mengchu; Ploeger, Felix; Diallo, Mohamadou; Riese, Martin

doi:10.5194/gmd-12-2441-2019

Articles | Volume 12, issue 6

https://doi.org/10.5194/gmd-12-2441-2019

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

https://doi.org/10.5194/gmd-12-2441-2019

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

Articles | Volume 12, issue 6

Model evaluation paper

|

24 Jun 2019

Model evaluation paper |

| 24 Jun 2019

Tropospheric mixing and parametrization of unresolved convective updrafts as implemented in the Chemical Lagrangian Model of the Stratosphere (CLaMS v2.0)

Paul Konopka, Mengchu Tao, Felix Ploeger, Mohamadou Diallo, and Martin Riese

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Aug 2018	69	19	3	91
Sep 2018	19	7	0	26
Oct 2018	18	7	1	26
Nov 2018	38	13	3	54
Dec 2018	12	7	0	19
Jan 2019	13	9	0	22
Feb 2019	10	3	1	14
Mar 2019	19	5	0	24
Apr 2019	10	4	1	15
May 2019	20	8	1	29
Jun 2019	98	44	4	146
Jul 2019	86	31	1	118
Aug 2019	19	19	1	39
Sep 2019	14	17	0	31
Oct 2019	60	24	0	84
Nov 2019	59	19	0	78
Dec 2019	37	13	0	50
Jan 2020	29	18	2	49
Feb 2020	27	6	0	33
Mar 2020	12	12	1	25
Apr 2020	7	9	1	17
May 2020	20	9	0	29
Jun 2020	17	13	0	30
Jul 2020	42	45	8	95
Aug 2020	22	6	1	29
Sep 2020	20	4	1	25
Oct 2020	17	10	2	29
Nov 2020	13	9	3	25
Dec 2020	16	11	3	30
Jan 2021	34	17	6	57
Feb 2021	13	11	6	30
Mar 2021	24	8	2	34
Apr 2021	14	13	4	31
May 2021	15	9	3	27
Jun 2021	10	12	0	22
Jul 2021	11	14	1	26
Aug 2021	17	16	5	38
Sep 2021	12	10	2	24
Oct 2021	13	39	4	56
Nov 2021	18	25	2	45
Dec 2021	11	6	1	18
Jan 2022	11	15	2	28
Feb 2022	11	7	6	24
Mar 2022	10	6	2	18
Apr 2022	16	6	2	24
May 2022	8	5	1	14
Jun 2022	12	3	3	18
Jul 2022	30	4	9	43
Aug 2022	84	5	3	92
Sep 2022	20	6	4	30
Oct 2022	32	5	1	38
Nov 2022	16	11	0	27
Dec 2022	10	7	0	17
Jan 2023	14	10	2	26
Feb 2023	18	8	1	27
Mar 2023	19	6	0	25
Apr 2023	12	9	0	21
May 2023	14	9	0	23
Jun 2023	17	7	0	24
Jul 2023	14	9	1	24
Aug 2023	17	8	1	26
Sep 2023	15	10	0	25
Oct 2023	17	9	0	26
Nov 2023	4	0	4
Dec 2023	64	13	1	78
Jan 2024	62	6	0	68
Feb 2024	20	9	2	31
Mar 2024	21	14	2	37
Apr 2024	20	7	4	31
May 2024	13	7	4	24
Jun 2024	34	6	1	41
Jul 2024	20	3	3	26
Aug 2024	20	8	2	30
Sep 2024	11	11	0	22
Oct 2024	15	14	0	29
Nov 2024	51	2	3	56
Dec 2024	18	7	3	28
Jan 2025	13	12	0	25
Feb 2025	39	9	3	51
Mar 2025	11	2	1	14
Apr 2025	23	13	1	37
May 2025	28	7	0	35
Jun 2025	49	28	1	78
Jul 2025	21	11	2	34
Aug 2025	59	25	4	88
Sep 2025	134	34	2	170
Oct 2025	42	29	5	76
Nov 2025	60	43	2	105
Dec 2025	28	42	3	73
Jan 2026	47	36	11	94
Feb 2026	39	26	3	68
Mar 2026	36	22	5	63
Apr 2026	39	28	4	71
May 2026	1	0	1

Cumulative views and downloads (calculated since 24 Jul 2018)

Month	HTML	PDF	XML	Total
Jul 2018	95	20	1	116
Aug 2018	69	19	3	91
Sep 2018	19	7	0	26
Oct 2018	18	7	1	26
Nov 2018	38	13	3	54
Dec 2018	12	7	0	19
Jan 2019	13	9	0	22
Feb 2019	10	3	1	14
Mar 2019	19	5	0	24
Apr 2019	10	4	1	15
May 2019	20	8	1	29
Jun 2019	98	44	4	146
Jul 2019	86	31	1	118
Aug 2019	19	19	1	39
Sep 2019	14	17	0	31
Oct 2019	60	24	0	84
Nov 2019	59	19	0	78
Dec 2019	37	13	0	50
Jan 2020	29	18	2	49
Feb 2020	27	6	0	33
Mar 2020	12	12	1	25
Apr 2020	7	9	1	17
May 2020	20	9	0	29
Jun 2020	17	13	0	30
Jul 2020	42	45	8	95
Aug 2020	22	6	1	29
Sep 2020	20	4	1	25
Oct 2020	17	10	2	29
Nov 2020	13	9	3	25
Dec 2020	16	11	3	30
Jan 2021	34	17	6	57
Feb 2021	13	11	6	30
Mar 2021	24	8	2	34
Apr 2021	14	13	4	31
May 2021	15	9	3	27
Jun 2021	10	12	0	22
Jul 2021	11	14	1	26
Aug 2021	17	16	5	38
Sep 2021	12	10	2	24
Oct 2021	13	39	4	56
Nov 2021	18	25	2	45
Dec 2021	11	6	1	18
Jan 2022	11	15	2	28
Feb 2022	11	7	6	24
Mar 2022	10	6	2	18
Apr 2022	16	6	2	24
May 2022	8	5	1	14
Jun 2022	12	3	3	18
Jul 2022	30	4	9	43
Aug 2022	84	5	3	92
Sep 2022	20	6	4	30
Oct 2022	32	5	1	38
Nov 2022	16	11	0	27
Dec 2022	10	7	0	17
Jan 2023	14	10	2	26
Feb 2023	18	8	1	27
Mar 2023	19	6	0	25
Apr 2023	12	9	0	21
May 2023	14	9	0	23
Jun 2023	17	7	0	24
Jul 2023	14	9	1	24
Aug 2023	17	8	1	26
Sep 2023	15	10	0	25
Oct 2023	17	9	0	26
Nov 2023	4	0	4
Dec 2023	64	13	1	78
Jan 2024	62	6	0	68
Feb 2024	20	9	2	31
Mar 2024	21	14	2	37
Apr 2024	20	7	4	31
May 2024	13	7	4	24
Jun 2024	34	6	1	41
Jul 2024	20	3	3	26
Aug 2024	20	8	2	30
Sep 2024	11	11	0	22
Oct 2024	15	14	0	29
Nov 2024	51	2	3	56
Dec 2024	18	7	3	28
Jan 2025	13	12	0	25
Feb 2025	39	9	3	51
Mar 2025	11	2	1	14
Apr 2025	23	13	1	37
May 2025	28	7	0	35
Jun 2025	49	28	1	78
Jul 2025	21	11	2	34
Aug 2025	59	25	4	88
Sep 2025	134	34	2	170
Oct 2025	42	29	5	76
Nov 2025	60	43	2	105
Dec 2025	28	42	3	73
Jan 2026	47	36	11	94
Feb 2026	39	26	3	68
Mar 2026	36	22	5	63
Apr 2026	39	28	4	71
May 2026	1	0	1

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Short summary

CLaMS is a Lagrangian transport model suitable for simulating atmospheric transport and chemistry. The novel approach of CLaMS is its description of atmospheric mixing. Whereas the common approach is to minimize the numerical diffusion ever present in the modeling of transport, CLaMS is a first attempt to apply this undesirable disturbing effect to parametrize the true physical mixing. In this paper, we show how this concept works both in the stratosphere and in the troposphere.

Tropospheric mixing and parametrization of unresolved convective updrafts as implemented in the Chemical Lagrangian Model of the Stratosphere (CLaMS v2.0)

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11 citations as recorded by crossref.

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