Deglacial carbon cycle changes observed in a compilation of 127 benthic <i>δ</i><sup>13</sup>C time series (20–6&thinsp;ka)

Peterson, Carlye D.; Lisiecki, Lorraine E.

doi:https://doi.org/10.5194/cp-14-1229-2018

Articles | Volume 14, issue 8

https://doi.org/10.5194/cp-14-1229-2018

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

Special issue:

Paleoclimate data synthesis and analysis of associated uncertainty...

https://doi.org/10.5194/cp-14-1229-2018

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

Articles | Volume 14, issue 8

Research article

|

16 Aug 2018

Research article |

| 16 Aug 2018

Deglacial carbon cycle changes observed in a compilation of 127 benthic δ¹³C time series (20–6 ka)

Carlye D. Peterson and Lorraine E. Lisiecki

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Total article views: 3,952 (including HTML, PDF, and XML)

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PDF: 1,265
XML: 101
Total: 3,952
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BibTeX: 69
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Views and downloads (calculated since 15 Mar 2018)

Month	HTML	PDF	XML	Total
Mar 2018	326	76	3	405
Apr 2018	89	26	3	118
May 2018	83	23	3	109
Jun 2018	33	7	0	40
Jul 2018	27	17	2	46
Aug 2018	351	93	5	449
Sep 2018	168	45	4	217
Oct 2018	51	34	6	91
Nov 2018	32	20	4	56
Dec 2018	16	9	2	27
Jan 2019	18	15	7	40
Feb 2019	25	19	2	46
Mar 2019	15	10	3	28
Apr 2019	20	11	2	33
May 2019	20	10	2	32
Jun 2019	30	12	1	43
Jul 2019	17	7	2	26
Aug 2019	15	13	2	30
Sep 2019	10	10	0	20
Oct 2019	13	6	1	20
Nov 2019	22	19	0	41
Dec 2019	26	9	0	35
Jan 2020	31	6	5	42
Feb 2020	16	6	0	22
Mar 2020	8	11	0	19
Apr 2020	10	16	1	27
May 2020	10	4	0	14
Jun 2020	19	11	0	30
Jul 2020	30	42	8	80
Aug 2020	10	108	0	118
Sep 2020	9	51	0	60
Oct 2020	14	22	1	37
Nov 2020	12	22	0	34
Dec 2020	20	12	0	32
Jan 2021	21	12	0	33
Feb 2021	19	8	0	27
Mar 2021	17	6	0	23
Apr 2021	12	11	0	23
May 2021	8	7	1	16
Jun 2021	11	10	0	21
Jul 2021	16	14	0	30
Aug 2021	17	9	1	27
Sep 2021	17	17	0	34
Oct 2021	7	35	0	42
Nov 2021	19	28	3	50
Dec 2021	14	8	0	22
Jan 2022	19	13	0	32
Feb 2022	17	5	4	26
Mar 2022	12	6	0	18
Apr 2022	15	8	1	24
May 2022	7	8	0	15
Jun 2022	16	6	3	25
Jul 2022	27	5	1	33
Aug 2022	108	4	0	112
Sep 2022	4	5	0	9
Oct 2022	12	5	0	17
Nov 2022	112	5	0	117
Dec 2022	44	8	2	54
Jan 2023	31	11	0	42
Feb 2023	20	9	0	29
Mar 2023	22	14	0	36
Apr 2023	16	11	0	27
May 2023	18	13	0	31
Jun 2023	19	17	1	37
Jul 2023	12	16	0	28
Aug 2023	7	13	1	21
Sep 2023	5	18	1	24
Oct 2023	26	13	1	40
Nov 2023	6	1	7
Dec 2023	11	6	3	20
Jan 2024	89	24	0	113
Feb 2024	12	21	0	33
Mar 2024	7	23	1	31
Apr 2024	118	11	7	136

Cumulative views and downloads (calculated since 15 Mar 2018)

Month	HTML	PDF	XML	Total
Mar 2018	326	76	3	405
Apr 2018	89	26	3	118
May 2018	83	23	3	109
Jun 2018	33	7	0	40
Jul 2018	27	17	2	46
Aug 2018	351	93	5	449
Sep 2018	168	45	4	217
Oct 2018	51	34	6	91
Nov 2018	32	20	4	56
Dec 2018	16	9	2	27
Jan 2019	18	15	7	40
Feb 2019	25	19	2	46
Mar 2019	15	10	3	28
Apr 2019	20	11	2	33
May 2019	20	10	2	32
Jun 2019	30	12	1	43
Jul 2019	17	7	2	26
Aug 2019	15	13	2	30
Sep 2019	10	10	0	20
Oct 2019	13	6	1	20
Nov 2019	22	19	0	41
Dec 2019	26	9	0	35
Jan 2020	31	6	5	42
Feb 2020	16	6	0	22
Mar 2020	8	11	0	19
Apr 2020	10	16	1	27
May 2020	10	4	0	14
Jun 2020	19	11	0	30
Jul 2020	30	42	8	80
Aug 2020	10	108	0	118
Sep 2020	9	51	0	60
Oct 2020	14	22	1	37
Nov 2020	12	22	0	34
Dec 2020	20	12	0	32
Jan 2021	21	12	0	33
Feb 2021	19	8	0	27
Mar 2021	17	6	0	23
Apr 2021	12	11	0	23
May 2021	8	7	1	16
Jun 2021	11	10	0	21
Jul 2021	16	14	0	30
Aug 2021	17	9	1	27
Sep 2021	17	17	0	34
Oct 2021	7	35	0	42
Nov 2021	19	28	3	50
Dec 2021	14	8	0	22
Jan 2022	19	13	0	32
Feb 2022	17	5	4	26
Mar 2022	12	6	0	18
Apr 2022	15	8	1	24
May 2022	7	8	0	15
Jun 2022	16	6	3	25
Jul 2022	27	5	1	33
Aug 2022	108	4	0	112
Sep 2022	4	5	0	9
Oct 2022	12	5	0	17
Nov 2022	112	5	0	117
Dec 2022	44	8	2	54
Jan 2023	31	11	0	42
Feb 2023	20	9	0	29
Mar 2023	22	14	0	36
Apr 2023	16	11	0	27
May 2023	18	13	0	31
Jun 2023	19	17	1	37
Jul 2023	12	16	0	28
Aug 2023	7	13	1	21
Sep 2023	5	18	1	24
Oct 2023	26	13	1	40
Nov 2023	6	1	7
Dec 2023	11	6	3	20
Jan 2024	89	24	0	113
Feb 2024	12	21	0	33
Mar 2024	7	23	1	31
Apr 2024	118	11	7	136

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Short summary

Our study presents an analysis of a four-dimensional compilation of globally distributed carbon isotope time series that span 20 to 6 thousand years ago. We explore carbon cycle connections between the deep ocean, atmosphere, and land-based carbon storage on thousand-year time scales to provide useful constraints for global carbon cycle reconstructions. Additionally, these carbon isotope time series are suitable for comparison with deglacial simulations from isotope-enabled Earth system models.

Deglacial carbon cycle changes observed in a compilation of 127 benthic δ¹³C time series (20–6 ka)

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Deglacial carbon cycle changes observed in a compilation of 127 benthic δ13C time series (20–6 ka)

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12 citations as recorded by crossref.

12 citations as recorded by crossref.

Discussed (preprint)

Deglacial carbon cycle changes observed in a compilation of 127 benthic δ¹³C time series (20–6 ka)