Deep learning subgrid-scale parametrisations for short-term forecasting of sea-ice dynamics with a Maxwell  elasto-brittle rheology

Finn, Tobias Sebastian; Durand, Charlotte; Farchi, Alban; Bocquet, Marc; Chen, Yumeng; Carrassi, Alberto; Dansereau, Véronique

doi:10.5194/tc-17-2965-2023

Articles | Volume 17, issue 7

https://doi.org/10.5194/tc-17-2965-2023

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

https://doi.org/10.5194/tc-17-2965-2023

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

Articles | Volume 17, issue 7

Research article

|

21 Jul 2023

Research article |

| 21 Jul 2023

Deep learning subgrid-scale parametrisations for short-term forecasting of sea-ice dynamics with a Maxwell elasto-brittle rheology

Tobias Sebastian Finn, Charlotte Durand, Alban Farchi, Marc Bocquet, Yumeng Chen, Alberto Carrassi, and Véronique Dansereau

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Views and downloads (calculated since 02 Jan 2023)

Month	HTML	PDF	XML	Total
Jan 2023	126	87	5	218
Feb 2023	54	38	1	93
Mar 2023	69	31	5	105
Apr 2023	54	28	4	86
May 2023	21	15	0	36
Jun 2023	39	21	1	61
Jul 2023	145	37	6	188
Aug 2023	114	16	5	135
Sep 2023	58	20	2	80
Oct 2023	39	15	1	55
Nov 2023	18	5	0	23
Dec 2023	28	6	1	35
Jan 2024	53	13	0	66
Feb 2024	32	8	0	40
Mar 2024	52	20	5	77
Apr 2024	54	10	6	70
May 2024	43	24	10	77
Jun 2024	67	22	8	97
Jul 2024	66	20	6	92
Aug 2024	62	23	6	91
Sep 2024	42	3	0	45
Oct 2024	41	7	0	48
Nov 2024	36	13	2	51
Dec 2024	45	18	1	64
Jan 2025	49	22	0	71
Feb 2025	50	21	1	72
Mar 2025	61	23	2	86
Apr 2025	31	24	2	57
May 2025	83	22	3	108
Jun 2025	69	31	4	104
Jul 2025	75	39	8	122
Aug 2025	75	36	4	115
Sep 2025	199	42	2	243
Oct 2025	55	61	3	119
Nov 2025	129	59	5	193
Dec 2025	371	57	13	441
Jan 2026	306	73	11	390
Feb 2026	312	46	17	375
Mar 2026	98	219	26	343
Apr 2026	121	167	10	298
May 2026	28	36	2	66

Cumulative views and downloads (calculated since 02 Jan 2023)

Month	HTML	PDF	XML	Total
Jan 2023	126	87	5	218
Feb 2023	54	38	1	93
Mar 2023	69	31	5	105
Apr 2023	54	28	4	86
May 2023	21	15	0	36
Jun 2023	39	21	1	61
Jul 2023	145	37	6	188
Aug 2023	114	16	5	135
Sep 2023	58	20	2	80
Oct 2023	39	15	1	55
Nov 2023	18	5	0	23
Dec 2023	28	6	1	35
Jan 2024	53	13	0	66
Feb 2024	32	8	0	40
Mar 2024	52	20	5	77
Apr 2024	54	10	6	70
May 2024	43	24	10	77
Jun 2024	67	22	8	97
Jul 2024	66	20	6	92
Aug 2024	62	23	6	91
Sep 2024	42	3	0	45
Oct 2024	41	7	0	48
Nov 2024	36	13	2	51
Dec 2024	45	18	1	64
Jan 2025	49	22	0	71
Feb 2025	50	21	1	72
Mar 2025	61	23	2	86
Apr 2025	31	24	2	57
May 2025	83	22	3	108
Jun 2025	69	31	4	104
Jul 2025	75	39	8	122
Aug 2025	75	36	4	115
Sep 2025	199	42	2	243
Oct 2025	55	61	3	119
Nov 2025	129	59	5	193
Dec 2025	371	57	13	441
Jan 2026	306	73	11	390
Feb 2026	312	46	17	375
Mar 2026	98	219	26	343
Apr 2026	121	167	10	298
May 2026	28	36	2	66

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Total article views: 5,136 (including HTML, PDF, and XML) Thereof 5,001 with geography defined and 135 with unknown origin.

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Short summary

We combine deep learning with a regional sea-ice model to correct model errors in the sea-ice dynamics of low-resolution forecasts towards high-resolution simulations. The combined model improves the forecast by up to 75 % and thereby surpasses the performance of persistence. As the error connection can additionally be used to analyse the shortcomings of the forecasts, this study highlights the potential of combined modelling for short-term sea-ice forecasting.