OBLIMAP 2.0: a fast climate model–ice sheet model coupler including online embeddable mapping routines

Reerink, Thomas J.; van de Berg, Willem Jan; van de Wal, Roderik S. W.

doi:https://doi.org/10.5194/gmd-9-4111-2016

Articles | Volume 9, issue 11

https://doi.org/10.5194/gmd-9-4111-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/gmd-9-4111-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 9, issue 11

Model description paper

|

21 Nov 2016

Model description paper |

| 21 Nov 2016

OBLIMAP 2.0: a fast climate model–ice sheet model coupler including online embeddable mapping routines

Thomas J. Reerink, Willem Jan van de Berg, and Roderik S. W. van de Wal

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Total article views: 3,326 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
2,038	1,155	133	3,326	269	152	140

HTML: 2,038
PDF: 1,155
XML: 133
Total: 3,326
Supplement: 269
BibTeX: 152
EndNote: 140

Views and downloads (calculated since 02 Jun 2016)

Month	HTML	PDF	XML	Total
Jun 2016	76	18	2	96
Jul 2016	16	11	0	27
Aug 2016	6	1	0	7
Sep 2016	13	3	0	16
Oct 2016	9	1	0	10
Nov 2016	46	61	2	109
Dec 2016	38	30	5	73
Jan 2017	32	40	1	73
Feb 2017	27	28	4	59
Mar 2017	32	19	7	58
Apr 2017	29	12	9	50
May 2017	52	19	6	77
Jun 2017	39	13	9	61
Jul 2017	19	9	3	31
Aug 2017	8	10	0	18
Sep 2017	10	9	1	20
Oct 2017	9	15	1	25
Nov 2017	7	8	0	15
Dec 2017	14	9	2	25
Jan 2018	7	7	0	14
Feb 2018	12	9	0	21
Mar 2018	11	13	0	24
Apr 2018	9	14	1	24
May 2018	11	13	1	25
Jun 2018	7	19	0	26
Jul 2018	10	14	1	25
Aug 2018	20	16	0	36
Sep 2018	7	12	0	19
Oct 2018	8	13	2	23
Nov 2018	13	16	2	31
Dec 2018	10	15	0	25
Jan 2019	12	18	1	31
Feb 2019	8	5	0	13
Mar 2019	3	4	0	7
Apr 2019	5	8	1	14
May 2019	7	13	1	21
Jun 2019	6	12	1	19
Jul 2019	5	11	0	16
Aug 2019	6	12	1	19
Sep 2019	4	6	0	10
Oct 2019	19	11	0	30
Nov 2019	14	18	0	32
Dec 2019	7	19	0	26
Jan 2020	14	7	1	22
Feb 2020	10	8	0	18
Mar 2020	9	13	1	23
Apr 2020	7	8	0	15
May 2020	19	8	0	27
Jun 2020	14	13	0	27
Jul 2020	46	68	29	143
Aug 2020	7	14	1	22
Sep 2020	13	4	0	17
Oct 2020	11	8	4	23
Nov 2020	11	11	1	23
Dec 2020	16	18	0	34
Jan 2021	23	8	0	31
Feb 2021	14	5	1	20
Mar 2021	5	5	0	10
Apr 2021	7	8	3	18
May 2021	7	3	0	10
Jun 2021	7	6	0	13
Jul 2021	9	14	1	24
Aug 2021	12	6	1	19
Sep 2021	7	7	0	14
Oct 2021	9	38	0	47
Nov 2021	15	24	0	39
Dec 2021	18	5	3	26
Jan 2022	7	13	0	20
Feb 2022	19	8	2	29
Mar 2022	8	11	1	20
Apr 2022	31	11	0	42
May 2022	35	5	0	40
Jun 2022	35	1	0	36
Jul 2022	29	3	1	33
Aug 2022	41	8	0	49
Sep 2022	33	4	0	37
Oct 2022	42	2	3	47
Nov 2022	43	11	0	54
Dec 2022	37	8	0	45
Jan 2023	39	12	3	54
Feb 2023	42	7	0	49
Mar 2023	47	10	0	57
Apr 2023	41	6	0	47
May 2023	45	6	0	51
Jun 2023	61	4	1	66
Jul 2023	38	2	0	40
Aug 2023	38	4	1	43
Sep 2023	38	11	1	50
Oct 2023	46	14	0	60
Nov 2023	21	3	0	24
Dec 2023	48	16	2	66
Jan 2024	39	14	0	53
Feb 2024	34	7	3	44
Mar 2024	40	21	4	65
Apr 2024	48	10	1	59

Cumulative views and downloads (calculated since 02 Jun 2016)

Month	HTML	PDF	XML	Total
Jun 2016	76	18	2	96
Jul 2016	16	11	0	27
Aug 2016	6	1	0	7
Sep 2016	13	3	0	16
Oct 2016	9	1	0	10
Nov 2016	46	61	2	109
Dec 2016	38	30	5	73
Jan 2017	32	40	1	73
Feb 2017	27	28	4	59
Mar 2017	32	19	7	58
Apr 2017	29	12	9	50
May 2017	52	19	6	77
Jun 2017	39	13	9	61
Jul 2017	19	9	3	31
Aug 2017	8	10	0	18
Sep 2017	10	9	1	20
Oct 2017	9	15	1	25
Nov 2017	7	8	0	15
Dec 2017	14	9	2	25
Jan 2018	7	7	0	14
Feb 2018	12	9	0	21
Mar 2018	11	13	0	24
Apr 2018	9	14	1	24
May 2018	11	13	1	25
Jun 2018	7	19	0	26
Jul 2018	10	14	1	25
Aug 2018	20	16	0	36
Sep 2018	7	12	0	19
Oct 2018	8	13	2	23
Nov 2018	13	16	2	31
Dec 2018	10	15	0	25
Jan 2019	12	18	1	31
Feb 2019	8	5	0	13
Mar 2019	3	4	0	7
Apr 2019	5	8	1	14
May 2019	7	13	1	21
Jun 2019	6	12	1	19
Jul 2019	5	11	0	16
Aug 2019	6	12	1	19
Sep 2019	4	6	0	10
Oct 2019	19	11	0	30
Nov 2019	14	18	0	32
Dec 2019	7	19	0	26
Jan 2020	14	7	1	22
Feb 2020	10	8	0	18
Mar 2020	9	13	1	23
Apr 2020	7	8	0	15
May 2020	19	8	0	27
Jun 2020	14	13	0	27
Jul 2020	46	68	29	143
Aug 2020	7	14	1	22
Sep 2020	13	4	0	17
Oct 2020	11	8	4	23
Nov 2020	11	11	1	23
Dec 2020	16	18	0	34
Jan 2021	23	8	0	31
Feb 2021	14	5	1	20
Mar 2021	5	5	0	10
Apr 2021	7	8	3	18
May 2021	7	3	0	10
Jun 2021	7	6	0	13
Jul 2021	9	14	1	24
Aug 2021	12	6	1	19
Sep 2021	7	7	0	14
Oct 2021	9	38	0	47
Nov 2021	15	24	0	39
Dec 2021	18	5	3	26
Jan 2022	7	13	0	20
Feb 2022	19	8	2	29
Mar 2022	8	11	1	20
Apr 2022	31	11	0	42
May 2022	35	5	0	40
Jun 2022	35	1	0	36
Jul 2022	29	3	1	33
Aug 2022	41	8	0	49
Sep 2022	33	4	0	37
Oct 2022	42	2	3	47
Nov 2022	43	11	0	54
Dec 2022	37	8	0	45
Jan 2023	39	12	3	54
Feb 2023	42	7	0	49
Mar 2023	47	10	0	57
Apr 2023	41	6	0	47
May 2023	45	6	0	51
Jun 2023	61	4	1	66
Jul 2023	38	2	0	40
Aug 2023	38	4	1	43
Sep 2023	38	11	1	50
Oct 2023	46	14	0	60
Nov 2023	21	3	0	24
Dec 2023	48	16	2	66
Jan 2024	39	14	0	53
Feb 2024	34	7	3	44
Mar 2024	40	21	4	65
Apr 2024	48	10	1	59

Cited

Discussed (final revised paper)

Latest update: 25 Apr 2024

Short summary

Ice sheets are part of the climate system and interact with the atmosphere and the ocean. OBLIMAP is a powerful tool to map climate fields between GCMs and ISMs (ice sheet models), which run on grids that differ in curvature, resolution and extent. OBLIMAP uses optimal aligned oblique projections, which minimize area distortions. OBLIMAP 2.0 allows for high-frequency embedded coupling and masked mapping. A fast search strategy realizes a huge performance gain and enables high-resolution mapping.

OBLIMAP 2.0: a fast climate model–ice sheet model coupler including online embeddable mapping routines

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Cited

13 citations as recorded by crossref.

12 citations as recorded by crossref.

1 citations as recorded by crossref.

Discussed (final revised paper)