High-resolution (1&thinsp;km) Polar WRF output for 79°&thinsp;N Glacier and the northeast of Greenland from 2014 to 2018

Turton, Jenny V.; Mölg, Thomas; Collier, Emily

doi:https://doi.org/10.5194/essd-12-1191-2020

Articles | Volume 12, issue 2

https://doi.org/10.5194/essd-12-1191-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/essd-12-1191-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 12, issue 2

Data description paper

|

28 May 2020

Data description paper |

| 28 May 2020

High-resolution (1 km) Polar WRF output for 79° N Glacier and the northeast of Greenland from 2014 to 2018

Jenny V. Turton, Thomas Mölg, and Emily Collier

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Total article views: 3,453 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,375	955	123	3,453	133	115

HTML: 2,375
PDF: 955
XML: 123
Total: 3,453
BibTeX: 133
EndNote: 115

Views and downloads (calculated since 30 Oct 2019)

Month	HTML	PDF	XML	Total
Oct 2019	61	22	1	84
Nov 2019	94	36	1	131
Dec 2019	33	15	1	49
Jan 2020	35	14	2	51
Feb 2020	9	3	1	13
Mar 2020	6	5	0	11
Apr 2020	7	10	1	18
May 2020	109	24	2	135
Jun 2020	130	80	2	212
Jul 2020	90	57	10	157
Aug 2020	135	17	2	154
Sep 2020	67	15	0	82
Oct 2020	43	12	1	56
Nov 2020	76	9	0	85
Dec 2020	101	16	2	119
Jan 2021	37	14	0	51
Feb 2021	26	15	0	41
Mar 2021	27	16	1	44
Apr 2021	30	11	0	41
May 2021	51	19	0	70
Jun 2021	14	13	1	28
Jul 2021	20	18	1	39
Aug 2021	24	16	3	43
Sep 2021	24	11	0	35
Oct 2021	25	52	0	77
Nov 2021	32	32	2	66
Dec 2021	17	10	0	27
Jan 2022	25	14	0	39
Feb 2022	16	10	2	28
Mar 2022	22	10	0	32
Apr 2022	12	1	1	14
May 2022	8	8	1	17
Jun 2022	20	12	2	34
Jul 2022	36	3	0	39
Aug 2022	79	15	2	96
Sep 2022	15	11	1	27
Oct 2022	20	3	1	24
Nov 2022	21	13	0	34
Dec 2022	15	7	0	22
Jan 2023	13	14	0	27
Feb 2023	17	8	1	26
Mar 2023	29	7	1	37
Apr 2023	25	14	4	43
May 2023	17	6	0	23
Jun 2023	20	10	2	32
Jul 2023	24	12	3	39
Aug 2023	10	5	2	17
Sep 2023	16	9	2	27
Oct 2023	28	8	2	38
Nov 2023	14	1	1	16
Dec 2023	24	12	3	39
Jan 2024	16	5	0	21
Feb 2024	13	16	4	33
Mar 2024	35	20	5	60
Apr 2024	22	8	9	39
May 2024	30	10	7	47
Jun 2024	27	9	2	38
Jul 2024	48	14	3	65
Aug 2024	51	13	8	72
Sep 2024	26	16	2	44
Oct 2024	30	14	2	46
Nov 2024	42	7	3	52
Dec 2024	25	3	3	31
Jan 2025	31	10	5	46
Feb 2025	41	5	2	48
Mar 2025	49	11	0	60
Apr 2025	32	17	2	51
May 2025	8	2	1	11

Cumulative views and downloads (calculated since 30 Oct 2019)

Month	HTML	PDF	XML	Total
Oct 2019	61	22	1	84
Nov 2019	94	36	1	131
Dec 2019	33	15	1	49
Jan 2020	35	14	2	51
Feb 2020	9	3	1	13
Mar 2020	6	5	0	11
Apr 2020	7	10	1	18
May 2020	109	24	2	135
Jun 2020	130	80	2	212
Jul 2020	90	57	10	157
Aug 2020	135	17	2	154
Sep 2020	67	15	0	82
Oct 2020	43	12	1	56
Nov 2020	76	9	0	85
Dec 2020	101	16	2	119
Jan 2021	37	14	0	51
Feb 2021	26	15	0	41
Mar 2021	27	16	1	44
Apr 2021	30	11	0	41
May 2021	51	19	0	70
Jun 2021	14	13	1	28
Jul 2021	20	18	1	39
Aug 2021	24	16	3	43
Sep 2021	24	11	0	35
Oct 2021	25	52	0	77
Nov 2021	32	32	2	66
Dec 2021	17	10	0	27
Jan 2022	25	14	0	39
Feb 2022	16	10	2	28
Mar 2022	22	10	0	32
Apr 2022	12	1	1	14
May 2022	8	8	1	17
Jun 2022	20	12	2	34
Jul 2022	36	3	0	39
Aug 2022	79	15	2	96
Sep 2022	15	11	1	27
Oct 2022	20	3	1	24
Nov 2022	21	13	0	34
Dec 2022	15	7	0	22
Jan 2023	13	14	0	27
Feb 2023	17	8	1	26
Mar 2023	29	7	1	37
Apr 2023	25	14	4	43
May 2023	17	6	0	23
Jun 2023	20	10	2	32
Jul 2023	24	12	3	39
Aug 2023	10	5	2	17
Sep 2023	16	9	2	27
Oct 2023	28	8	2	38
Nov 2023	14	1	1	16
Dec 2023	24	12	3	39
Jan 2024	16	5	0	21
Feb 2024	13	16	4	33
Mar 2024	35	20	5	60
Apr 2024	22	8	9	39
May 2024	30	10	7	47
Jun 2024	27	9	2	38
Jul 2024	48	14	3	65
Aug 2024	51	13	8	72
Sep 2024	26	16	2	44
Oct 2024	30	14	2	46
Nov 2024	42	7	3	52
Dec 2024	25	3	3	31
Jan 2025	31	10	5	46
Feb 2025	41	5	2	48
Mar 2025	49	11	0	60
Apr 2025	32	17	2	51
May 2025	8	2	1	11

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Total article views: 3,453 (including HTML, PDF, and XML) Thereof 3,147 with geography defined and 306 with unknown origin.

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Discussed (final revised paper)

Latest update: 08 May 2025

Short summary

The Northeast Greenland Ice Stream drains approximately 12 % of the entire Greenland ice sheet and could contribute over 1 m of sea level rise if it were to completely disappear. However, this region is a relatively new research area. Here we provide an atmospheric modelling dataset from 2014 to 2018, which includes many meteorological and radiation variables. The model data have been compared to weather stations and show good agreement. This dataset has many future applications.