A new approach for simulating the paleo-evolution of the Northern Hemisphere ice sheets

Banderas, Rubén; Alvarez-Solas, Jorge; Robinson, Alexander; Montoya, Marisa

doi:10.5194/gmd-11-2299-2018

Articles | Volume 11, issue 6

https://doi.org/10.5194/gmd-11-2299-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/gmd-11-2299-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 11, issue 6

Model experiment description paper

|

19 Jun 2018

Model experiment description paper |

| 19 Jun 2018

A new approach for simulating the paleo-evolution of the Northern Hemisphere ice sheets

Rubén Banderas, Jorge Alvarez-Solas, Alexander Robinson, and Marisa Montoya

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Total article views: 4,751 (including HTML, PDF, and XML)

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Views and downloads (calculated since 31 Jul 2017)

Month	HTML	PDF	XML	Total
Jul 2017	35	8	0	43
Aug 2017	137	36	1	174
Sep 2017	26	13	0	39
Oct 2017	30	7	0	37
Nov 2017	28	9	0	37
Dec 2017	18	11	2	31
Jan 2018	39	11	2	52
Feb 2018	56	9	5	70
Mar 2018	55	11	2	68
Apr 2018	46	13	0	59
May 2018	12	9	0	21
Jun 2018	182	38	7	227
Jul 2018	86	22	4	112
Aug 2018	13	15	0	28
Sep 2018	20	14	1	35
Oct 2018	17	16	0	33
Nov 2018	24	17	1	42
Dec 2018	18	14	0	32
Jan 2019	23	9	0	32
Feb 2019	8	4	0	12
Mar 2019	7	6	0	13
Apr 2019	8	11	2	21
May 2019	20	5	0	25
Jun 2019	29	11	0	40
Jul 2019	19	11	0	30
Aug 2019	14	11	0	25
Sep 2019	15	8	0	23
Oct 2019	55	20	1	76
Nov 2019	74	11	0	85
Dec 2019	18	10	1	29
Jan 2020	27	9	2	38
Feb 2020	24	9	0	33
Mar 2020	14	8	1	23
Apr 2020	15	7	0	22
May 2020	10	0	10
Jun 2020	15	12	0	27
Jul 2020	42	55	13	110
Aug 2020	7	5	1	13
Sep 2020	14	4	0	18
Oct 2020	18	10	2	30
Nov 2020	14	12	0	26
Dec 2020	18	6	0	24
Jan 2021	23	14	0	37
Feb 2021	5	11	0	16
Mar 2021	8	5	0	13
Apr 2021	8	5	0	13
May 2021	5	8	1	14
Jun 2021	4	6	0	10
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Nov 2021	13	19	0	32
Dec 2021	8	11	1	20
Jan 2022	23	9	1	33
Feb 2022	8	4	1	13
Mar 2022	9	9	0	18
Apr 2022	9	5	1	15
May 2022	6	5	1	12
Jun 2022	4	7	0	11
Jul 2022	10	2	0	12
Aug 2022	31	3	0	34
Sep 2022	4	5	0	9
Oct 2022	17	6	1	24
Nov 2022	63	12	0	75
Dec 2022	37	4	1	42
Jan 2023	41	12	0	53
Feb 2023	38	5	0	43
Mar 2023	41	7	0	48
Apr 2023	12	4	0	16
May 2023	11	11	0	22
Jun 2023	3	5	1	9
Jul 2023	5	6	1	12
Aug 2023	2	7	2	11
Sep 2023	14	7	1	22
Oct 2023	10	6	0	16
Nov 2023	1	4	0	5
Dec 2023	11	7	2	20
Jan 2024	60	2	1	63
Feb 2024	7	8	0	15
Mar 2024	10	4	1	15
Apr 2024	20	20	2	42
May 2024	19	11	2	32
Jun 2024	36	6	3	45
Jul 2024	12	5	2	19
Aug 2024	18	4	3	25
Sep 2024	13	6	0	19
Oct 2024	9	5	1	15
Nov 2024	11	6	3	20
Dec 2024	7	3	1	11
Jan 2025	13	4	0	17
Feb 2025	26	7	3	36
Mar 2025	18	12	0	30
Apr 2025	21	11	1	33
May 2025	19	7	1	27
Jun 2025	44	15	0	59
Jul 2025	27	8	2	37
Aug 2025	39	6	0	45
Sep 2025	119	21	3	143
Oct 2025	33	25	6	64
Nov 2025	91	33	3	127
Dec 2025	81	22	1	104
Jan 2026	531	28	15	574
Feb 2026	366	6	6	378
Mar 2026	1	0	1

Cumulative views and downloads (calculated since 31 Jul 2017)

Month	HTML	PDF	XML	Total
Jul 2017	35	8	0	43
Aug 2017	137	36	1	174
Sep 2017	26	13	0	39
Oct 2017	30	7	0	37
Nov 2017	28	9	0	37
Dec 2017	18	11	2	31
Jan 2018	39	11	2	52
Feb 2018	56	9	5	70
Mar 2018	55	11	2	68
Apr 2018	46	13	0	59
May 2018	12	9	0	21
Jun 2018	182	38	7	227
Jul 2018	86	22	4	112
Aug 2018	13	15	0	28
Sep 2018	20	14	1	35
Oct 2018	17	16	0	33
Nov 2018	24	17	1	42
Dec 2018	18	14	0	32
Jan 2019	23	9	0	32
Feb 2019	8	4	0	12
Mar 2019	7	6	0	13
Apr 2019	8	11	2	21
May 2019	20	5	0	25
Jun 2019	29	11	0	40
Jul 2019	19	11	0	30
Aug 2019	14	11	0	25
Sep 2019	15	8	0	23
Oct 2019	55	20	1	76
Nov 2019	74	11	0	85
Dec 2019	18	10	1	29
Jan 2020	27	9	2	38
Feb 2020	24	9	0	33
Mar 2020	14	8	1	23
Apr 2020	15	7	0	22
May 2020	10	0	10
Jun 2020	15	12	0	27
Jul 2020	42	55	13	110
Aug 2020	7	5	1	13
Sep 2020	14	4	0	18
Oct 2020	18	10	2	30
Nov 2020	14	12	0	26
Dec 2020	18	6	0	24
Jan 2021	23	14	0	37
Feb 2021	5	11	0	16
Mar 2021	8	5	0	13
Apr 2021	8	5	0	13
May 2021	5	8	1	14
Jun 2021	4	6	0	10
Jul 2021	6	9	0	15
Aug 2021	7	7	0	14
Sep 2021	6	10	0	16
Oct 2021	9	45	1	55
Nov 2021	13	19	0	32
Dec 2021	8	11	1	20
Jan 2022	23	9	1	33
Feb 2022	8	4	1	13
Mar 2022	9	9	0	18
Apr 2022	9	5	1	15
May 2022	6	5	1	12
Jun 2022	4	7	0	11
Jul 2022	10	2	0	12
Aug 2022	31	3	0	34
Sep 2022	4	5	0	9
Oct 2022	17	6	1	24
Nov 2022	63	12	0	75
Dec 2022	37	4	1	42
Jan 2023	41	12	0	53
Feb 2023	38	5	0	43
Mar 2023	41	7	0	48
Apr 2023	12	4	0	16
May 2023	11	11	0	22
Jun 2023	3	5	1	9
Jul 2023	5	6	1	12
Aug 2023	2	7	2	11
Sep 2023	14	7	1	22
Oct 2023	10	6	0	16
Nov 2023	1	4	0	5
Dec 2023	11	7	2	20
Jan 2024	60	2	1	63
Feb 2024	7	8	0	15
Mar 2024	10	4	1	15
Apr 2024	20	20	2	42
May 2024	19	11	2	32
Jun 2024	36	6	3	45
Jul 2024	12	5	2	19
Aug 2024	18	4	3	25
Sep 2024	13	6	0	19
Oct 2024	9	5	1	15
Nov 2024	11	6	3	20
Dec 2024	7	3	1	11
Jan 2025	13	4	0	17
Feb 2025	26	7	3	36
Mar 2025	18	12	0	30
Apr 2025	21	11	1	33
May 2025	19	7	1	27
Jun 2025	44	15	0	59
Jul 2025	27	8	2	37
Aug 2025	39	6	0	45
Sep 2025	119	21	3	143
Oct 2025	33	25	6	64
Nov 2025	91	33	3	127
Dec 2025	81	22	1	104
Jan 2026	531	28	15	574
Feb 2026	366	6	6	378
Mar 2026	1	0	1

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Short summary

Here we present a new approach to force ice-sheet models offline, which accounts for a more realistic treatment of millennial-scale climate variability as compared to the existing methods. Our results reveal that an incorrect representation of the characteristic pattern of millennial-scale climate variability within the climate forcing not only affects NH ice-volume variations at millennial timescales but has consequences for glacial–interglacial ice-volume changes too.


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