SeaRISE experiments revisited: potential  sources of spread in multi-model projections of the Greenland ice sheet

Saito, F.; Abe-Ouchi, A.; Takahashi, K.; Blatter, H.

doi:https://doi.org/10.5194/tc-10-43-2016

Articles | Volume 10, issue 1

https://doi.org/10.5194/tc-10-43-2016

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

https://doi.org/10.5194/tc-10-43-2016

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

Articles | Volume 10, issue 1

Research article

|

15 Jan 2016

Research article |

| 15 Jan 2016

SeaRISE experiments revisited: potential sources of spread in multi-model projections of the Greenland ice sheet

F. Saito, A. Abe-Ouchi, K. Takahashi, and H. Blatter

Viewed

Total article views: 3,459 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
2,063	1,171	225	3,459	339	233	236

HTML: 2,063
PDF: 1,171
XML: 225
Total: 3,459
Supplement: 339
BibTeX: 233
EndNote: 236

Views and downloads (calculated since 27 Feb 2015)

Month	HTML	PDF	XML	Total
Feb 2015	27	20	1	48
Mar 2015	66	43	1	110
Apr 2015	42	13	1	56
May 2015	17	9	0	26
Jun 2015	12	7	1	20
Jul 2015	18	8	0	26
Aug 2015	15	2	0	17
Sep 2015	6	2	1	9
Oct 2015	9	4	8	21
Nov 2015	7	3	0	10
Dec 2015	5	2	0	7
Jan 2016	116	67	1	184
Feb 2016	51	27	3	81
Mar 2016	37	19	23	79
Apr 2016	21	16	1	38
May 2016	13	11	1	25
Jun 2016	7	4	0	11
Jul 2016	15	11	1	27
Aug 2016	11	8	0	19
Sep 2016	18	6	0	24
Oct 2016	11	3	8	22
Nov 2016	19	5	8	32
Dec 2016	4	5	0	9
Jan 2017	24	9	1	34
Feb 2017	15	4	0	19
Mar 2017	26	8	1	35
Apr 2017	25	7	0	32
May 2017	27	13	0	40
Jun 2017	35	6	3	44
Jul 2017	23	9	0	32
Aug 2017	6	7	0	13
Sep 2017	9	12	0	21
Oct 2017	9	7	0	16
Nov 2017	17	12	0	29
Dec 2017	9	8	0	17
Jan 2018	8	8	0	16
Feb 2018	21	6	3	30
Mar 2018	12	5	0	17
Apr 2018	8	8	0	16
May 2018	13	11	1	25
Jun 2018	14	6	0	20
Jul 2018	7	5	0	12
Aug 2018	19	15	2	36
Sep 2018	11	10	1	22
Oct 2018	19	9	4	32
Nov 2018	15	7	2	24
Dec 2018	10	6	0	16
Jan 2019	7	7	0	14
Feb 2019	8	3	0	11
Mar 2019	4	8	1	13
Apr 2019	4	4	0	8
May 2019	12	12	1	25
Jun 2019	12	8	0	20
Jul 2019	14	10	1	25
Aug 2019	9	11	0	20
Sep 2019	9	8	0	17
Oct 2019	15	8	1	24
Nov 2019	13	4	0	17
Dec 2019	5	6	0	11
Jan 2020	17	11	2	30
Feb 2020	12	10	0	22
Mar 2020	14	11	1	26
Apr 2020	11	5	3	19
May 2020	12	3	0	15
Jun 2020	13	8	0	21
Jul 2020	62	42	36	140
Aug 2020	10	7	4	21
Sep 2020	13	3	1	17
Oct 2020	15	9	1	25
Nov 2020	13	6	1	20
Dec 2020	11	8	0	19
Jan 2021	21	9	2	32
Feb 2021	12	6	0	18
Mar 2021	10	3	2	15
Apr 2021	6	5	1	12
May 2021	8	7	2	17
Jun 2021	6	5	0	11
Jul 2021	9	8	1	18
Aug 2021	9	11	1	21
Sep 2021	16	11	1	28
Oct 2021	12	40	0	52
Nov 2021	9	22	0	31
Dec 2021	22	7	1	30
Jan 2022	18	9	0	27
Feb 2022	17	5	1	23
Mar 2022	14	6	0	20
Apr 2022	12	4	0	16
May 2022	10	5	2	17
Jun 2022	11	4	2	17
Jul 2022	8	4	0	12
Aug 2022	18	5	4	27
Sep 2022	10	6	0	16
Oct 2022	11	3	1	15
Nov 2022	8	10	0	18
Dec 2022	18	14	2	34
Jan 2023	21	12	0	33
Feb 2023	16	13	1	30
Mar 2023	17	5	1	23
Apr 2023	15	4	1	20
May 2023	11	12	1	24
Jun 2023	5	6	0	11
Jul 2023	7	7	0	14
Aug 2023	16	4	5	25
Sep 2023	11	6	1	18
Oct 2023	8	6	1	15
Nov 2023	5	1	1	7
Dec 2023	20	13	5	38
Jan 2024	13	6	1	20
Feb 2024	11	13	1	25
Mar 2024	11	13	2	26
Apr 2024	26	7	10	43
May 2024	19	12	7	38
Jun 2024	43	7	4	54
Jul 2024	26	11	4	41
Aug 2024	29	7	8	44
Sep 2024	9	9	4	22
Oct 2024	26	12	1	39
Nov 2024	42	5	3	50
Dec 2024	14	18	1	33
Jan 2025	21	10	4	35
Feb 2025	29	8	3	40
Mar 2025	23	8	1	32
Apr 2025	26	19	1	46
May 2025	4	3	0	7

Cumulative views and downloads (calculated since 27 Feb 2015)

Month	HTML	PDF	XML	Total
Feb 2015	27	20	1	48
Mar 2015	66	43	1	110
Apr 2015	42	13	1	56
May 2015	17	9	0	26
Jun 2015	12	7	1	20
Jul 2015	18	8	0	26
Aug 2015	15	2	0	17
Sep 2015	6	2	1	9
Oct 2015	9	4	8	21
Nov 2015	7	3	0	10
Dec 2015	5	2	0	7
Jan 2016	116	67	1	184
Feb 2016	51	27	3	81
Mar 2016	37	19	23	79
Apr 2016	21	16	1	38
May 2016	13	11	1	25
Jun 2016	7	4	0	11
Jul 2016	15	11	1	27
Aug 2016	11	8	0	19
Sep 2016	18	6	0	24
Oct 2016	11	3	8	22
Nov 2016	19	5	8	32
Dec 2016	4	5	0	9
Jan 2017	24	9	1	34
Feb 2017	15	4	0	19
Mar 2017	26	8	1	35
Apr 2017	25	7	0	32
May 2017	27	13	0	40
Jun 2017	35	6	3	44
Jul 2017	23	9	0	32
Aug 2017	6	7	0	13
Sep 2017	9	12	0	21
Oct 2017	9	7	0	16
Nov 2017	17	12	0	29
Dec 2017	9	8	0	17
Jan 2018	8	8	0	16
Feb 2018	21	6	3	30
Mar 2018	12	5	0	17
Apr 2018	8	8	0	16
May 2018	13	11	1	25
Jun 2018	14	6	0	20
Jul 2018	7	5	0	12
Aug 2018	19	15	2	36
Sep 2018	11	10	1	22
Oct 2018	19	9	4	32
Nov 2018	15	7	2	24
Dec 2018	10	6	0	16
Jan 2019	7	7	0	14
Feb 2019	8	3	0	11
Mar 2019	4	8	1	13
Apr 2019	4	4	0	8
May 2019	12	12	1	25
Jun 2019	12	8	0	20
Jul 2019	14	10	1	25
Aug 2019	9	11	0	20
Sep 2019	9	8	0	17
Oct 2019	15	8	1	24
Nov 2019	13	4	0	17
Dec 2019	5	6	0	11
Jan 2020	17	11	2	30
Feb 2020	12	10	0	22
Mar 2020	14	11	1	26
Apr 2020	11	5	3	19
May 2020	12	3	0	15
Jun 2020	13	8	0	21
Jul 2020	62	42	36	140
Aug 2020	10	7	4	21
Sep 2020	13	3	1	17
Oct 2020	15	9	1	25
Nov 2020	13	6	1	20
Dec 2020	11	8	0	19
Jan 2021	21	9	2	32
Feb 2021	12	6	0	18
Mar 2021	10	3	2	15
Apr 2021	6	5	1	12
May 2021	8	7	2	17
Jun 2021	6	5	0	11
Jul 2021	9	8	1	18
Aug 2021	9	11	1	21
Sep 2021	16	11	1	28
Oct 2021	12	40	0	52
Nov 2021	9	22	0	31
Dec 2021	22	7	1	30
Jan 2022	18	9	0	27
Feb 2022	17	5	1	23
Mar 2022	14	6	0	20
Apr 2022	12	4	0	16
May 2022	10	5	2	17
Jun 2022	11	4	2	17
Jul 2022	8	4	0	12
Aug 2022	18	5	4	27
Sep 2022	10	6	0	16
Oct 2022	11	3	1	15
Nov 2022	8	10	0	18
Dec 2022	18	14	2	34
Jan 2023	21	12	0	33
Feb 2023	16	13	1	30
Mar 2023	17	5	1	23
Apr 2023	15	4	1	20
May 2023	11	12	1	24
Jun 2023	5	6	0	11
Jul 2023	7	7	0	14
Aug 2023	16	4	5	25
Sep 2023	11	6	1	18
Oct 2023	8	6	1	15
Nov 2023	5	1	1	7
Dec 2023	20	13	5	38
Jan 2024	13	6	1	20
Feb 2024	11	13	1	25
Mar 2024	11	13	2	26
Apr 2024	26	7	10	43
May 2024	19	12	7	38
Jun 2024	43	7	4	54
Jul 2024	26	11	4	41
Aug 2024	29	7	8	44
Sep 2024	9	9	4	22
Oct 2024	26	12	1	39
Nov 2024	42	5	3	50
Dec 2024	14	18	1	33
Jan 2025	21	10	4	35
Feb 2025	29	8	3	40
Mar 2025	23	8	1	32
Apr 2025	26	19	1	46
May 2025	4	3	0	7

Cited

Saved (preprint)

Latest update: 09 May 2025

Short summary

This article, as the title denotes, is a follow-up study of an ice-sheet intercomparison project SeaRISE, which focuses on the response of the Greenland ice sheet to future global warming. The projections of the different SeaRISE prticipants show diversion, which has not been examined in detail to date. This study detects the main sources of the diversion by a number of sensitivity experiments and shows the importance of initialization methods as well as climate forcing methods.

SeaRISE experiments revisited: potential sources of spread in multi-model projections of the Greenland ice sheet

Viewed

Cited

11 citations as recorded by crossref.

11 citations as recorded by crossref.

Saved (preprint)