Large ensemble of downscaled historical daily snowfall from an earth system model to 5.5&thinsp;km resolution over Dronning Maud Land, Antarctica

Ghilain, Nicolas; Vannitsem, Stéphane; Dalaiden, Quentin; Goosse, Hugues; De Cruz, Lesley; Wei, Wenguang

doi:10.5194/essd-14-1901-2022

Articles | Volume 14, issue 4

https://doi.org/10.5194/essd-14-1901-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/essd-14-1901-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 14, issue 4

Data description article

|

26 Apr 2022

Data description article |

| 26 Apr 2022

Large ensemble of downscaled historical daily snowfall from an earth system model to 5.5 km resolution over Dronning Maud Land, Antarctica

Nicolas Ghilain, Stéphane Vannitsem, Quentin Dalaiden, Hugues Goosse, Lesley De Cruz, and Wenguang Wei

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Month	HTML	PDF	XML	Total
Jan 2021	73	19	2	94
Feb 2021	89	25	2	116
Mar 2021	34	13	3	50
Apr 2021	27	7	1	35
May 2021	47	11	2	60
Jun 2021	19	11	0	30
Jul 2021	39	6	2	47
Aug 2021	47	9	3	59
Sep 2021	18	14	0	32
Oct 2021	58	48	6	112
Nov 2021	37	20	1	58
Dec 2021	35	10	1	46
Jan 2022	47	8	1	56
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Mar 2022	23	13	1	37
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May 2022	129	28	5	162
Jun 2022	47	9	1	57
Jul 2022	36	7	0	43
Aug 2022	83	17	2	102
Sep 2022	18	6	1	25
Oct 2022	22	2	2	26
Nov 2022	17	9	0	26
Dec 2022	27	15	1	43
Jan 2023	23	23	1	47
Feb 2023	15	5	1	21
Mar 2023	31	10	2	43
Apr 2023	22	10	1	33
May 2023	23	21	2	46
Jun 2023	25	42	1	68
Jul 2023	22	15	4	41
Aug 2023	10	10	2	22
Sep 2023	32	12	3	47
Oct 2023	41	9	2	52
Nov 2023	19	2	1	22
Dec 2023	96	6	4	106
Jan 2024	75	9	1	85
Feb 2024	23	19	3	45
Mar 2024	23	32	4	59
Apr 2024	29	7	8	44
May 2024	42	12	10	64
Jun 2024	26	14	1	41
Jul 2024	325	7	8	340
Aug 2024	43	11	12	66
Sep 2024	21	14	4	39
Oct 2024	28	14	1	43
Nov 2024	23	6	1	30
Dec 2024	25	9	5	39
Jan 2025	30	15	1	46
Feb 2025	18	6	0	24
Mar 2025	17	9	1	27
Apr 2025	21	20	2	43
May 2025	24	11	1	36
Jun 2025	44	45	0	89
Jul 2025	23	26	1	50
Aug 2025	38	11	3	52
Sep 2025	199	24	5	228
Oct 2025	61	40	2	103
Nov 2025	83	33	2	118
Dec 2025	122	40	2	164
Jan 2026	333	23	4	360
Feb 2026	347	15	0	362
Mar 2026	54	46	11	111
Apr 2026	72	59	7	138
May 2026	17	11	1	29

Cumulative views and downloads (calculated since 27 Jan 2021)

Month	HTML	PDF	XML	Total
Jan 2021	73	19	2	94
Feb 2021	89	25	2	116
Mar 2021	34	13	3	50
Apr 2021	27	7	1	35
May 2021	47	11	2	60
Jun 2021	19	11	0	30
Jul 2021	39	6	2	47
Aug 2021	47	9	3	59
Sep 2021	18	14	0	32
Oct 2021	58	48	6	112
Nov 2021	37	20	1	58
Dec 2021	35	10	1	46
Jan 2022	47	8	1	56
Feb 2022	44	9	0	53
Mar 2022	23	13	1	37
Apr 2022	133	35	6	174
May 2022	129	28	5	162
Jun 2022	47	9	1	57
Jul 2022	36	7	0	43
Aug 2022	83	17	2	102
Sep 2022	18	6	1	25
Oct 2022	22	2	2	26
Nov 2022	17	9	0	26
Dec 2022	27	15	1	43
Jan 2023	23	23	1	47
Feb 2023	15	5	1	21
Mar 2023	31	10	2	43
Apr 2023	22	10	1	33
May 2023	23	21	2	46
Jun 2023	25	42	1	68
Jul 2023	22	15	4	41
Aug 2023	10	10	2	22
Sep 2023	32	12	3	47
Oct 2023	41	9	2	52
Nov 2023	19	2	1	22
Dec 2023	96	6	4	106
Jan 2024	75	9	1	85
Feb 2024	23	19	3	45
Mar 2024	23	32	4	59
Apr 2024	29	7	8	44
May 2024	42	12	10	64
Jun 2024	26	14	1	41
Jul 2024	325	7	8	340
Aug 2024	43	11	12	66
Sep 2024	21	14	4	39
Oct 2024	28	14	1	43
Nov 2024	23	6	1	30
Dec 2024	25	9	5	39
Jan 2025	30	15	1	46
Feb 2025	18	6	0	24
Mar 2025	17	9	1	27
Apr 2025	21	20	2	43
May 2025	24	11	1	36
Jun 2025	44	45	0	89
Jul 2025	23	26	1	50
Aug 2025	38	11	3	52
Sep 2025	199	24	5	228
Oct 2025	61	40	2	103
Nov 2025	83	33	2	118
Dec 2025	122	40	2	164
Jan 2026	333	23	4	360
Feb 2026	347	15	0	362
Mar 2026	54	46	11	111
Apr 2026	72	59	7	138
May 2026	17	11	1	29

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Short summary

Modeling the climate at high resolution is crucial to represent the snowfall accumulation over the complex orography of the Antarctic coast. While ice cores provide a view constrained spatially but over centuries, climate models can give insight into its spatial distribution, either at high resolution over a short period or vice versa. We downscaled snowfall accumulation from climate model historical simulations (1850–present day) over Dronning Maud Land at 5.5 km using a statistical method.