Earth system model simulations show different feedback strengths of the terrestrial carbon cycle under glacial and interglacial conditions

Adloff, Markus; Reick, Christian H.; Claussen, Martin

doi:https://doi.org/10.5194/esd-9-413-2018

Articles | Volume 9, issue 2

https://doi.org/10.5194/esd-9-413-2018

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

https://doi.org/10.5194/esd-9-413-2018

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

Articles | Volume 9, issue 2

Research article

|

25 Apr 2018

Research article |

| 25 Apr 2018

Earth system model simulations show different feedback strengths of the terrestrial carbon cycle under glacial and interglacial conditions

Markus Adloff, Christian H. Reick, and Martin Claussen

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Total article views: 2,800 (including HTML, PDF, and XML)

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Month	HTML	PDF	XML	Total
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Oct 2017	18	4	0	22
Nov 2017	8	1	0	9
Dec 2017	7	3	0	10
Jan 2018	13	3	3	19
Feb 2018	27	1	6	34
Mar 2018	13	5	2	20
Apr 2018	111	30	10	151
May 2018	148	26	2	176
Jun 2018	42	11	1	54
Jul 2018	22	9	0	31
Aug 2018	27	9	0	36
Sep 2018	29	10	0	39
Oct 2018	24	12	0	36
Nov 2018	22	13	1	36
Dec 2018	24	12	1	37
Jan 2019	14	13	0	27
Feb 2019	19	4	0	23
Mar 2019	24	7	0	31
Apr 2019	20	5	0	25
May 2019	17	6	0	23
Jun 2019	27	12	0	39
Jul 2019	8	5	0	13
Aug 2019	7	6	0	13
Sep 2019	10	13	1	24
Oct 2019	28	20	1	49
Nov 2019	10	5	0	15
Dec 2019	21	6	1	28
Jan 2020	24	11	0	35
Feb 2020	28	5	0	33
Mar 2020	16	8	0	24
Apr 2020	12	6	0	18
May 2020	9	3	0	12
Jun 2020	40	31	2	73
Jul 2020	33	49	9	91
Aug 2020	6	11	0	17
Sep 2020	28	8	1	37
Oct 2020	11	4	1	16
Nov 2020	9	11	0	20
Dec 2020	17	10	0	27
Jan 2021	17	11	0	28
Feb 2021	6	1	0	7
Mar 2021	15	9	0	24
Apr 2021	8	2	0	10
May 2021	19	10	2	31
Jun 2021	6	5	0	11
Jul 2021	8	7	0	15
Aug 2021	9	10	0	19
Sep 2021	21	9	0	30
Oct 2021	7	31	0	38
Nov 2021	12	31	0	43
Dec 2021	14	13	0	27
Jan 2022	11	6	0	17
Feb 2022	11	7	1	19
Mar 2022	24	6	0	30
Apr 2022	20	9	2	31
May 2022	13	5	1	19
Jun 2022	10	2	1	13
Jul 2022	7	6	0	13
Aug 2022	35	7	0	42
Sep 2022	19	9	0	28
Oct 2022	17	4	0	21
Nov 2022	49	13	0	62
Dec 2022	59	6	1	66
Jan 2023	37	11	1	49
Feb 2023	39	5	0	44
Mar 2023	22	8	0	30
Apr 2023	14	6	0	20
May 2023	14	10	1	25
Jun 2023	19	9	1	29
Jul 2023	10	6	0	16
Aug 2023	6	4	2	12
Sep 2023	12	12	1	25
Oct 2023	13	7	1	21
Nov 2023	9	8	0	17
Dec 2023	21	9	0	30
Jan 2024	87	9	2	98
Feb 2024	18	8	1	27
Mar 2024	19	7	6	32
Apr 2024	17	9	9	35

Cumulative views and downloads (calculated since 03 Jul 2017)

Month	HTML	PDF	XML	Total
Jul 2017	132	23	2	157
Aug 2017	42	6	1	49
Sep 2017	13	4	0	17
Oct 2017	18	4	0	22
Nov 2017	8	1	0	9
Dec 2017	7	3	0	10
Jan 2018	13	3	3	19
Feb 2018	27	1	6	34
Mar 2018	13	5	2	20
Apr 2018	111	30	10	151
May 2018	148	26	2	176
Jun 2018	42	11	1	54
Jul 2018	22	9	0	31
Aug 2018	27	9	0	36
Sep 2018	29	10	0	39
Oct 2018	24	12	0	36
Nov 2018	22	13	1	36
Dec 2018	24	12	1	37
Jan 2019	14	13	0	27
Feb 2019	19	4	0	23
Mar 2019	24	7	0	31
Apr 2019	20	5	0	25
May 2019	17	6	0	23
Jun 2019	27	12	0	39
Jul 2019	8	5	0	13
Aug 2019	7	6	0	13
Sep 2019	10	13	1	24
Oct 2019	28	20	1	49
Nov 2019	10	5	0	15
Dec 2019	21	6	1	28
Jan 2020	24	11	0	35
Feb 2020	28	5	0	33
Mar 2020	16	8	0	24
Apr 2020	12	6	0	18
May 2020	9	3	0	12
Jun 2020	40	31	2	73
Jul 2020	33	49	9	91
Aug 2020	6	11	0	17
Sep 2020	28	8	1	37
Oct 2020	11	4	1	16
Nov 2020	9	11	0	20
Dec 2020	17	10	0	27
Jan 2021	17	11	0	28
Feb 2021	6	1	0	7
Mar 2021	15	9	0	24
Apr 2021	8	2	0	10
May 2021	19	10	2	31
Jun 2021	6	5	0	11
Jul 2021	8	7	0	15
Aug 2021	9	10	0	19
Sep 2021	21	9	0	30
Oct 2021	7	31	0	38
Nov 2021	12	31	0	43
Dec 2021	14	13	0	27
Jan 2022	11	6	0	17
Feb 2022	11	7	1	19
Mar 2022	24	6	0	30
Apr 2022	20	9	2	31
May 2022	13	5	1	19
Jun 2022	10	2	1	13
Jul 2022	7	6	0	13
Aug 2022	35	7	0	42
Sep 2022	19	9	0	28
Oct 2022	17	4	0	21
Nov 2022	49	13	0	62
Dec 2022	59	6	1	66
Jan 2023	37	11	1	49
Feb 2023	39	5	0	44
Mar 2023	22	8	0	30
Apr 2023	14	6	0	20
May 2023	14	10	1	25
Jun 2023	19	9	1	29
Jul 2023	10	6	0	16
Aug 2023	6	4	2	12
Sep 2023	12	12	1	25
Oct 2023	13	7	1	21
Nov 2023	9	8	0	17
Dec 2023	21	9	0	30
Jan 2024	87	9	2	98
Feb 2024	18	8	1	27
Mar 2024	19	7	6	32
Apr 2024	17	9	9	35

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Short summary

Computer simulations show that during an ice age a strong atmospheric CO₂ increase would have resulted in stronger carbon uptake of the continents than today. Causes are the larger potential of glacial vegetation to increase its photosynthetic efficiency under increasing CO₂ and the smaller amount of carbon in extratropical soils during an ice age that can be released under greenhouse warming. Hence, for different climates the Earth system is differently sensitive to carbon cycle perturbations.

Earth system model simulations show different feedback strengths of the terrestrial carbon cycle under glacial and interglacial conditions

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