The Plio-Pleistocene climatic evolution as a consequence of orbital forcing on the carbon cycle

Paillard, Didier

doi:https://doi.org/10.5194/cp-13-1259-2017

Articles | Volume 13, issue 9

https://doi.org/10.5194/cp-13-1259-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue:

Publications by EGU Medallists

https://doi.org/10.5194/cp-13-1259-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 13, issue 9

Research article

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25 Sep 2017

Research article | Highlight paper |

| 25 Sep 2017

The Plio-Pleistocene climatic evolution as a consequence of orbital forcing on the carbon cycle

Didier Paillard

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May 2017	41	9	9	59
Jun 2017	54	7	10	71
Jul 2017	16	9	1	26
Aug 2017	9	4	0	13
Sep 2017	146	65	3	214
Oct 2017	265	103	11	379
Nov 2017	110	51	7	168
Dec 2017	72	33	7	112
Jan 2018	63	27	9	99
Feb 2018	61	17	8	86
Mar 2018	51	24	4	79
Apr 2018	31	18	5	54
May 2018	26	16	2	44
Jun 2018	27	16	4	47
Jul 2018	22	16	4	42
Aug 2018	32	10	5	47
Sep 2018	26	15	4	45
Oct 2018	27	25	5	57
Nov 2018	27	13	4	44
Dec 2018	26	11	3	40
Jan 2019	19	20	0	39
Feb 2019	16	12	1	29
Mar 2019	24	17	1	42
Apr 2019	50	16	3	69
May 2019	37	12	0	49
Jun 2019	34	11	1	46
Jul 2019	39	9	1	49
Aug 2019	37	7	0	44
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Apr 2020	50	4	0	54
May 2020	82	12	1	95
Jun 2020	63	16	1	80
Jul 2020	45	46	24	115
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Jan 2021	82	13	0	95
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Jan 2022	47	16	0	63
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Apr 2022	44	14	2	60
May 2022	45	6	0	51
Jun 2022	42	10	2	54
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Dec 2022	50	14	2	66
Jan 2023	36	7	1	44
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Mar 2023	54	21	3	78
Apr 2023	63	7	0	70
May 2023	61	9	0	70
Jun 2023	39	13	1	53
Jul 2023	54	16	5	75
Aug 2023	44	9	1	54
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Oct 2023	57	14	4	75
Nov 2023	21	6	0	27
Dec 2023	25	11	5	41
Jan 2024	18	15	1	34
Feb 2024	10	10	0	20
Mar 2024	16	22	1	39
Apr 2024	13	1	4	18

Cumulative views and downloads (calculated since 11 Jan 2017)

Month	HTML	PDF	XML	Total
Jan 2017	115	61	2	178
Feb 2017	49	26	8	83
Mar 2017	57	25	14	96
Apr 2017	54	10	11	75
May 2017	41	9	9	59
Jun 2017	54	7	10	71
Jul 2017	16	9	1	26
Aug 2017	9	4	0	13
Sep 2017	146	65	3	214
Oct 2017	265	103	11	379
Nov 2017	110	51	7	168
Dec 2017	72	33	7	112
Jan 2018	63	27	9	99
Feb 2018	61	17	8	86
Mar 2018	51	24	4	79
Apr 2018	31	18	5	54
May 2018	26	16	2	44
Jun 2018	27	16	4	47
Jul 2018	22	16	4	42
Aug 2018	32	10	5	47
Sep 2018	26	15	4	45
Oct 2018	27	25	5	57
Nov 2018	27	13	4	44
Dec 2018	26	11	3	40
Jan 2019	19	20	0	39
Feb 2019	16	12	1	29
Mar 2019	24	17	1	42
Apr 2019	50	16	3	69
May 2019	37	12	0	49
Jun 2019	34	11	1	46
Jul 2019	39	9	1	49
Aug 2019	37	7	0	44
Sep 2019	34	9	0	43
Oct 2019	38	10	2	50
Nov 2019	39	9	0	48
Dec 2019	40	7	1	48
Jan 2020	29	12	0	41
Feb 2020	40	6	1	47
Mar 2020	48	6	0	54
Apr 2020	50	4	0	54
May 2020	82	12	1	95
Jun 2020	63	16	1	80
Jul 2020	45	46	24	115
Aug 2020	67	10	2	79
Sep 2020	66	7	1	74
Oct 2020	47	17	0	64
Nov 2020	41	11	0	52
Dec 2020	71	10	1	82
Jan 2021	82	13	0	95
Feb 2021	58	11	0	69
Mar 2021	50	15	0	65
Apr 2021	59	18	1	78
May 2021	58	11	0	69
Jun 2021	56	8	1	65
Jul 2021	49	15	0	64
Aug 2021	44	16	0	60
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Oct 2021	53	49	1	103
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Feb 2022	38	4	1	43
Mar 2022	49	16	0	65
Apr 2022	44	14	2	60
May 2022	45	6	0	51
Jun 2022	42	10	2	54
Jul 2022	46	13	0	59
Aug 2022	46	8	3	57
Sep 2022	44	9	0	53
Oct 2022	51	8	4	63
Nov 2022	49	15	1	65
Dec 2022	50	14	2	66
Jan 2023	36	7	1	44
Feb 2023	48	14	0	62
Mar 2023	54	21	3	78
Apr 2023	63	7	0	70
May 2023	61	9	0	70
Jun 2023	39	13	1	53
Jul 2023	54	16	5	75
Aug 2023	44	9	1	54
Sep 2023	67	11	0	78
Oct 2023	57	14	4	75
Nov 2023	21	6	0	27
Dec 2023	25	11	5	41
Jan 2024	18	15	1	34
Feb 2024	10	10	0	20
Mar 2024	16	22	1	39
Apr 2024	13	1	4	18

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Short summary

Ice ages are paced by astronomical parameters. On longer timescales, the astronomy also acts on climate, as evidenced by the 400 kyr signature observed in carbon isotopic records. In this paper, I present a conceptual model that links the astronomy to the dynamics of organic carbon in coastal areas. The model reproduces the carbon isotopic records and a two-step decrease in atmospheric CO₂ that would explain the Pleistocene (~ 2.8 Myr BP) and mid-Pleistocene (~ 0.8 Myr BP) transition.

The Plio-Pleistocene climatic evolution as a consequence of orbital forcing on the carbon cycle

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10 citations as recorded by crossref.


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