Including the efficacy of land ice changes in deriving climate sensitivity from paleodata

Stap, Lennert B.; Köhler, Peter; Lohmann, Gerrit

doi:10.5194/esd-10-333-2019

Articles | Volume 10, issue 2

https://doi.org/10.5194/esd-10-333-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/esd-10-333-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 10, issue 2

Research article

| Highlight paper

|

14 Jun 2019

Research article | Highlight paper |

| 14 Jun 2019

Including the efficacy of land ice changes in deriving climate sensitivity from paleodata

Lennert B. Stap, Peter Köhler, and Gerrit Lohmann

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Total article views: 8,033 (including HTML, PDF, and XML)

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Views and downloads (calculated since 17 Dec 2018)

Month	HTML	PDF	XML	Total
Dec 2018	212	34	1	247
Jan 2019	267	24	1	292
Feb 2019	129	6	2	137
Mar 2019	27	6	0	33
Apr 2019	23	6	0	29
May 2019	7	4	0	11
Jun 2019	267	44	3	314
Jul 2019	126	33	1	160
Aug 2019	116	21	4	141
Sep 2019	53	10	0	63
Oct 2019	71	11	1	83
Nov 2019	71	14	3	88
Dec 2019	91	15	2	108
Jan 2020	58	6	1	65
Feb 2020	72	7	1	80
Mar 2020	80	16	1	97
Apr 2020	84	9	0	93
May 2020	84	6	0	90
Jun 2020	96	34	1	131
Jul 2020	58	43	9	110
Aug 2020	61	11	1	73
Sep 2020	73	12	2	87
Oct 2020	47	6	0	53
Nov 2020	36	16	0	52
Dec 2020	138	8	1	147
Jan 2021	84	12	0	96
Feb 2021	51	4	0	55
Mar 2021	61	12	0	73
Apr 2021	57	4	0	61
May 2021	66	11	2	79
Jun 2021	64	10	2	76
Jul 2021	50	4	0	54
Aug 2021	49	11	0	60
Sep 2021	49	11	1	61
Oct 2021	37	32	0	69
Nov 2021	51	27	0	78
Dec 2021	53	12	1	66
Jan 2022	52	15	1	68
Feb 2022	45	8	4	57
Mar 2022	46	10	0	56
Apr 2022	68	4	2	74
May 2022	63	5	0	68
Jun 2022	43	4	1	48
Jul 2022	71	8	0	79
Aug 2022	131	5	0	136
Sep 2022	57	7	0	64
Oct 2022	76	15	1	92
Nov 2022	65	18	0	83
Dec 2022	44	68	1	113
Jan 2023	47	43	2	92
Feb 2023	45	17	0	62
Mar 2023	57	20	0	77
Apr 2023	77	10	0	87
May 2023	55	49	1	105
Jun 2023	65	40	2	107
Jul 2023	42	71	1	114
Aug 2023	37	32	2	71
Sep 2023	36	35	0	71
Oct 2023	44	38	0	82
Nov 2023	29	26	0	55
Dec 2023	65	10	2	77
Jan 2024	89	7	1	97
Feb 2024	12	10	3	25
Mar 2024	19	7	2	28
Apr 2024	25	10	9	44
May 2024	31	14	5	50
Jun 2024	238	9	3	250
Jul 2024	26	12	4	42
Aug 2024	58	5	4	67
Sep 2024	33	9	1	43
Oct 2024	53	3	1	57
Nov 2024	37	1	1	39
Dec 2024	38	5	4	47
Jan 2025	41	5	4	50
Feb 2025	33	7	0	40
Mar 2025	17	7	1	25
Apr 2025	43	12	2	57
May 2025	47	8	3	58
Jun 2025	91	16	3	110
Jul 2025	72	16	6	94
Aug 2025	59	16	2	77
Sep 2025	196	18	0	214
Oct 2025	49	30	2	81
Nov 2025	68	14	2	84
Dec 2025	50	27	2	79
Jan 2026	76	17	13	106
Feb 2026	234	12	8	254
Mar 2026	61	20	7	88
Apr 2026	83	27	6	116
May 2026	134	22	0	156
Jun 2026	3	1	1	5

Cumulative views and downloads (calculated since 17 Dec 2018)

Month	HTML	PDF	XML	Total
Dec 2018	212	34	1	247
Jan 2019	267	24	1	292
Feb 2019	129	6	2	137
Mar 2019	27	6	0	33
Apr 2019	23	6	0	29
May 2019	7	4	0	11
Jun 2019	267	44	3	314
Jul 2019	126	33	1	160
Aug 2019	116	21	4	141
Sep 2019	53	10	0	63
Oct 2019	71	11	1	83
Nov 2019	71	14	3	88
Dec 2019	91	15	2	108
Jan 2020	58	6	1	65
Feb 2020	72	7	1	80
Mar 2020	80	16	1	97
Apr 2020	84	9	0	93
May 2020	84	6	0	90
Jun 2020	96	34	1	131
Jul 2020	58	43	9	110
Aug 2020	61	11	1	73
Sep 2020	73	12	2	87
Oct 2020	47	6	0	53
Nov 2020	36	16	0	52
Dec 2020	138	8	1	147
Jan 2021	84	12	0	96
Feb 2021	51	4	0	55
Mar 2021	61	12	0	73
Apr 2021	57	4	0	61
May 2021	66	11	2	79
Jun 2021	64	10	2	76
Jul 2021	50	4	0	54
Aug 2021	49	11	0	60
Sep 2021	49	11	1	61
Oct 2021	37	32	0	69
Nov 2021	51	27	0	78
Dec 2021	53	12	1	66
Jan 2022	52	15	1	68
Feb 2022	45	8	4	57
Mar 2022	46	10	0	56
Apr 2022	68	4	2	74
May 2022	63	5	0	68
Jun 2022	43	4	1	48
Jul 2022	71	8	0	79
Aug 2022	131	5	0	136
Sep 2022	57	7	0	64
Oct 2022	76	15	1	92
Nov 2022	65	18	0	83
Dec 2022	44	68	1	113
Jan 2023	47	43	2	92
Feb 2023	45	17	0	62
Mar 2023	57	20	0	77
Apr 2023	77	10	0	87
May 2023	55	49	1	105
Jun 2023	65	40	2	107
Jul 2023	42	71	1	114
Aug 2023	37	32	2	71
Sep 2023	36	35	0	71
Oct 2023	44	38	0	82
Nov 2023	29	26	0	55
Dec 2023	65	10	2	77
Jan 2024	89	7	1	97
Feb 2024	12	10	3	25
Mar 2024	19	7	2	28
Apr 2024	25	10	9	44
May 2024	31	14	5	50
Jun 2024	238	9	3	250
Jul 2024	26	12	4	42
Aug 2024	58	5	4	67
Sep 2024	33	9	1	43
Oct 2024	53	3	1	57
Nov 2024	37	1	1	39
Dec 2024	38	5	4	47
Jan 2025	41	5	4	50
Feb 2025	33	7	0	40
Mar 2025	17	7	1	25
Apr 2025	43	12	2	57
May 2025	47	8	3	58
Jun 2025	91	16	3	110
Jul 2025	72	16	6	94
Aug 2025	59	16	2	77
Sep 2025	196	18	0	214
Oct 2025	49	30	2	81
Nov 2025	68	14	2	84
Dec 2025	50	27	2	79
Jan 2026	76	17	13	106
Feb 2026	234	12	8	254
Mar 2026	61	20	7	88
Apr 2026	83	27	6	116
May 2026	134	22	0	156
Jun 2026	3	1	1	5

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Total article views: 8,033 (including HTML, PDF, and XML) Thereof 7,192 with geography defined and 841 with unknown origin.

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Short summary

Processes causing the same global-average radiative forcing might lead to different global temperature changes. We expand the theoretical framework by which we calculate paleoclimate sensitivity with an efficacy factor. Applying the revised approach to radiative forcing caused by CO₂ and land ice albedo perturbations, inferred from data of the past 800 000 years, gives a new paleo-based estimate of climate sensitivity.

Including the efficacy of land ice changes in deriving climate sensitivity from paleodata

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12 citations as recorded by crossref.

12 citations as recorded by crossref.

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