Soil profile connectivity can impact microbial substrate use, affecting how soil CO<sub>2</sub> effluxes are controlled by temperature

Podrebarac, Frances A.; Billings, Sharon A.; Edwards, Kate A.; Laganière, Jérôme; Norwood, Matthew J.; Ziegler, Susan E.

doi:https://doi.org/10.5194/bg-18-4755-2021

Articles | Volume 18, issue 16

https://doi.org/10.5194/bg-18-4755-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-18-4755-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 18, issue 16

Research article

|

20 Aug 2021

Research article |

| 20 Aug 2021

Soil profile connectivity can impact microbial substrate use, affecting how soil CO₂ effluxes are controlled by temperature

Frances A. Podrebarac, Sharon A. Billings, Kate A. Edwards, Jérôme Laganière, Matthew J. Norwood, and Susan E. Ziegler

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Feb 2021	17	0	17
Mar 2021	12	3	1	16
Apr 2021	8	1	0	9
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Dec 2021	29	12	2	43
Jan 2022	31	18	1	50
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May 2022	27	8	0	35
Jun 2022	19	6	0	25
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Aug 2022	18	6	0	24
Sep 2022	28	3	0	31
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Dec 2022	19	10	2	31
Jan 2023	6	11	0	17
Feb 2023	17	11	1	29
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Jan 2024	14	9	0	23
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Mar 2024	24	14	1	39
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Jun 2024	63	12	2	77
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Mar 2025	18	15	0	33
Apr 2025	24	22	1	47
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Jun 2025	47	14	0	61
Jul 2025	41	15	1	57
Aug 2025	34	15	1	50
Sep 2025	87	16	1	104
Oct 2025	55	30	2	87
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Cumulative views and downloads (calculated since 25 Nov 2020)

Month	HTML	PDF	XML	Total
Nov 2020	105	19	2	126
Dec 2020	72	14	2	88
Jan 2021	33	10	2	45
Feb 2021	17	0	17
Mar 2021	12	3	1	16
Apr 2021	8	1	0	9
May 2021	8	5	0	13
Jun 2021	14	2	1	17
Jul 2021	10	5	0	15
Aug 2021	248	53	1	302
Sep 2021	123	38	1	162
Oct 2021	49	31	1	81
Nov 2021	40	31	1	72
Dec 2021	29	12	2	43
Jan 2022	31	18	1	50
Feb 2022	34	16	1	51
Mar 2022	41	21	0	62
Apr 2022	26	6	1	33
May 2022	27	8	0	35
Jun 2022	19	6	0	25
Jul 2022	10	9	0	19
Aug 2022	18	6	0	24
Sep 2022	28	3	0	31
Oct 2022	16	8	2	26
Nov 2022	19	7	2	28
Dec 2022	19	10	2	31
Jan 2023	6	11	0	17
Feb 2023	17	11	1	29
Mar 2023	15	12	3	30
Apr 2023	8	6	0	14
May 2023	22	12	1	35
Jun 2023	12	9	5	26
Jul 2023	15	15	0	30
Aug 2023	16	10	3	29
Sep 2023	12	6	0	18
Oct 2023	13	10	2	25
Nov 2023	5	3	0	8
Dec 2023	13	13	1	27
Jan 2024	14	9	0	23
Feb 2024	5	5	0	10
Mar 2024	24	14	1	39
Apr 2024	12	15	1	28
May 2024	26	13	5	44
Jun 2024	63	12	2	77
Jul 2024	27	7	3	37
Aug 2024	38	7	1	46
Sep 2024	13	7	0	20
Oct 2024	22	8	1	31
Nov 2024	11	8	1	20
Dec 2024	16	7	1	24
Jan 2025	22	12	0	34
Feb 2025	16	8	0	24
Mar 2025	18	15	0	33
Apr 2025	24	22	1	47
May 2025	24	16	1	41
Jun 2025	47	14	0	61
Jul 2025	41	15	1	57
Aug 2025	34	15	1	50
Sep 2025	87	16	1	104
Oct 2025	55	30	2	87
Nov 2025	6	7	0	13

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Short summary

Soil respiration is a large and temperature-responsive flux in the global carbon cycle. We found increases in microbial use of easy to degrade substrates enhanced the temperature response of respiration in soils layered as they are in situ. This enhanced response is consistent with soil composition differences in warm relative to cold climate forests. These results highlight the importance of the intact nature of soils rarely studied in regulating responses of CO₂ fluxes to changing temperature.

Soil profile connectivity can impact microbial substrate use, affecting how soil CO₂ effluxes are controlled by temperature

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Soil profile connectivity can impact microbial substrate use, affecting how soil CO2 effluxes are controlled by temperature

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Soil profile connectivity can impact microbial substrate use, affecting how soil CO₂ effluxes are controlled by temperature