Evolution of squall line variability and error growth  in an ensemble of large eddy simulations

Groot, Edward; Tost, Holger

doi:10.5194/acp-23-565-2023

Articles | Volume 23, issue 1

https://doi.org/10.5194/acp-23-565-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-23-565-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 23, issue 1

Research article

|

13 Jan 2023

Research article |

| 13 Jan 2023

Evolution of squall line variability and error growth in an ensemble of large eddy simulations

Edward Groot and Holger Tost

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Jul 2022	163	36	8	207
Aug 2022	60	17	3	80
Sep 2022	45	12	4	61
Oct 2022	19	6	0	25
Nov 2022	27	7	0	34
Dec 2022	19	7	0	26
Jan 2023	193	36	8	237
Feb 2023	195	22	0	217
Mar 2023	140	13	1	154
Apr 2023	75	9	0	84
May 2023	75	9	4	88
Jun 2023	73	2	0	75
Jul 2023	56	9	1	66
Aug 2023	66	9	2	77
Sep 2023	91	11	3	105
Oct 2023	121	8	1	130
Nov 2023	63	1	0	64
Dec 2023	40	11	1	52
Jan 2024	22	9	0	31
Feb 2024	48	7	0	55
Mar 2024	13	14	5	32
Apr 2024	23	9	4	36
May 2024	45	12	1	58
Jun 2024	131	23	7	161
Jul 2024	150	6	8	164
Aug 2024	46	11	10	67
Sep 2024	39	9	1	49
Oct 2024	31	10	0	41
Nov 2024	15	9	1	25
Dec 2024	28	13	0	41
Jan 2025	24	23	0	47
Feb 2025	32	15	0	47
Mar 2025	30	22	0	52
Apr 2025	27	18	0	45
May 2025	66	18	3	87
Jun 2025	97	25	1	123
Jul 2025	39	35	3	77
Aug 2025	85	20	0	105
Sep 2025	254	40	8	302
Oct 2025	43	52	0	95
Nov 2025	112	74	8	194
Dec 2025	113	42	7	162
Jan 2026	186	31	4	221
Feb 2026	146	24	10	180
Mar 2026	147	70	11	228
Apr 2026	126	34	6	166
May 2026	21	7	1	29

Cumulative views and downloads (calculated since 01 Jul 2022)

Month	HTML	PDF	XML	Total
Jul 2022	163	36	8	207
Aug 2022	60	17	3	80
Sep 2022	45	12	4	61
Oct 2022	19	6	0	25
Nov 2022	27	7	0	34
Dec 2022	19	7	0	26
Jan 2023	193	36	8	237
Feb 2023	195	22	0	217
Mar 2023	140	13	1	154
Apr 2023	75	9	0	84
May 2023	75	9	4	88
Jun 2023	73	2	0	75
Jul 2023	56	9	1	66
Aug 2023	66	9	2	77
Sep 2023	91	11	3	105
Oct 2023	121	8	1	130
Nov 2023	63	1	0	64
Dec 2023	40	11	1	52
Jan 2024	22	9	0	31
Feb 2024	48	7	0	55
Mar 2024	13	14	5	32
Apr 2024	23	9	4	36
May 2024	45	12	1	58
Jun 2024	131	23	7	161
Jul 2024	150	6	8	164
Aug 2024	46	11	10	67
Sep 2024	39	9	1	49
Oct 2024	31	10	0	41
Nov 2024	15	9	1	25
Dec 2024	28	13	0	41
Jan 2025	24	23	0	47
Feb 2025	32	15	0	47
Mar 2025	30	22	0	52
Apr 2025	27	18	0	45
May 2025	66	18	3	87
Jun 2025	97	25	1	123
Jul 2025	39	35	3	77
Aug 2025	85	20	0	105
Sep 2025	254	40	8	302
Oct 2025	43	52	0	95
Nov 2025	112	74	8	194
Dec 2025	113	42	7	162
Jan 2026	186	31	4	221
Feb 2026	146	24	10	180
Mar 2026	147	70	11	228
Apr 2026	126	34	6	166
May 2026	21	7	1	29

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Short summary

Thunderstorm systems play an important role in the dynamics of the Earth’s atmosphere, and some of them form a well-organised line: squall lines. Simulations of such squall lines with very small initial perturbations are compared to a reference simulation. The evolution of perturbations and processes amplifying them are analysed. It is shown that the formation of new secondary thunderstorm cells (after the initial primary cells) directly ahead of the line affects the spread strongly.