Temperature sensitivity of dark CO<sub>2</sub> fixation  in temperate forest soils

Akinyede, Rachael; Taubert, Martin; Schrumpf, Marion; Trumbore, Susan; Küsel, Kirsten

doi:https://doi.org/10.5194/bg-19-4011-2022

Articles | Volume 19, issue 17

https://doi.org/10.5194/bg-19-4011-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-19-4011-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 17

Research article

|

01 Sep 2022

Research article |

| 01 Sep 2022

Temperature sensitivity of dark CO₂ fixation in temperate forest soils

Rachael Akinyede, Martin Taubert, Marion Schrumpf, Susan Trumbore, and Kirsten Küsel

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Month	HTML	PDF	XML	Total
Apr 2022	64	15	2	81
May 2022	140	35	2	177
Jun 2022	51	19	3	73
Jul 2022	62	27	6	95
Aug 2022	24	12	0	36
Sep 2022	349	67	5	421
Oct 2022	55	21	2	78
Nov 2022	46	16	1	63
Dec 2022	46	11	0	57
Jan 2023	32	17	0	49
Feb 2023	44	26	2	72
Mar 2023	38	20	0	58
Apr 2023	21	11	0	32
May 2023	32	21	2	55
Jun 2023	39	10	2	51
Jul 2023	29	11	0	40
Aug 2023	37	17	3	57
Sep 2023	46	22	1	69
Oct 2023	50	11	1	62
Nov 2023	21	15	1	37
Dec 2023	42	16	5	63
Jan 2024	40	10	0	50
Feb 2024	31	20	1	52
Mar 2024	30	25	0	55
Apr 2024	38	11	2	51
May 2024	38	14	5	57
Jun 2024	73	13	3	89
Jul 2024	56	11	7	74
Aug 2024	36	11	2	49
Sep 2024	35	9	2	46
Oct 2024	25	2	1	28
Nov 2024	8	3	0	11

Cumulative views and downloads (calculated since 28 Apr 2022)

Month	HTML	PDF	XML	Total
Apr 2022	64	15	2	81
May 2022	140	35	2	177
Jun 2022	51	19	3	73
Jul 2022	62	27	6	95
Aug 2022	24	12	0	36
Sep 2022	349	67	5	421
Oct 2022	55	21	2	78
Nov 2022	46	16	1	63
Dec 2022	46	11	0	57
Jan 2023	32	17	0	49
Feb 2023	44	26	2	72
Mar 2023	38	20	0	58
Apr 2023	21	11	0	32
May 2023	32	21	2	55
Jun 2023	39	10	2	51
Jul 2023	29	11	0	40
Aug 2023	37	17	3	57
Sep 2023	46	22	1	69
Oct 2023	50	11	1	62
Nov 2023	21	15	1	37
Dec 2023	42	16	5	63
Jan 2024	40	10	0	50
Feb 2024	31	20	1	52
Mar 2024	30	25	0	55
Apr 2024	38	11	2	51
May 2024	38	14	5	57
Jun 2024	73	13	3	89
Jul 2024	56	11	7	74
Aug 2024	36	11	2	49
Sep 2024	35	9	2	46
Oct 2024	25	2	1	28
Nov 2024	8	3	0	11

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Short summary

Soils will likely become warmer in the future, and this can increase the release of carbon dioxide (CO₂) into the atmosphere. As microbes can take up soil CO₂ and prevent further escape into the atmosphere, this study compares the rate of uptake and release of CO₂ at two different temperatures. With warming, the rate of CO₂ uptake increases less than the rate of release, indicating that the capacity to modulate soil CO₂ release into the atmosphere will decrease under future warming.

Temperature sensitivity of dark CO₂ fixation in temperate forest soils

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Temperature sensitivity of dark CO2 fixation in temperate forest soils

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Temperature sensitivity of dark CO₂ fixation in temperate forest soils