Microbial dormancy and its impacts on northern temperate and boreal terrestrial ecosystem carbon budget

Zha, Junrong; Zhuang, Qianla

doi:https://doi.org/10.5194/bg-17-4591-2020

Articles | Volume 17, issue 18

https://doi.org/10.5194/bg-17-4591-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-17-4591-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 17, issue 18

Research article

|

21 Sep 2020

Research article |

| 21 Sep 2020

Microbial dormancy and its impacts on northern temperate and boreal terrestrial ecosystem carbon budget

Junrong Zha and Qianla Zhuang

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Views and downloads (calculated since 09 May 2019)

Month	HTML	PDF	XML	Total
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Jun 2019	18	7	0	25
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Aug 2019	11	6	0	17
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Mar 2020	3	2	0	5
Apr 2020	8	2	0	10
May 2020	3	2	0	5
Jun 2020	11	2	0	13
Jul 2020	10	11	6	27
Aug 2020	2	1	1	4
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Oct 2020	144	22	1	167
Nov 2020	27	14	0	41
Dec 2020	44	7	0	51
Jan 2021	33	17	0	50
Feb 2021	13	6	0	19
Mar 2021	17	4	1	22
Apr 2021	19	6	0	25
May 2021	21	6	0	27
Jun 2021	15	10	0	25
Jul 2021	12	10	0	22
Aug 2021	14	12	0	26
Sep 2021	17	14	0	31
Oct 2021	15	33	0	48
Nov 2021	30	26	1	57
Dec 2021	15	14	0	29
Jan 2022	15	8	3	26
Feb 2022	13	3	1	17
Mar 2022	18	10	0	28
Apr 2022	24	4	2	30
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Jul 2022	39	9	0	48
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Oct 2022	13	4	3	20
Nov 2022	21	12	1	34
Dec 2022	21	11	0	32
Jan 2023	17	16	0	33
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Jul 2023	23	13	0	36
Aug 2023	27	19	4	50
Sep 2023	27	21	2	50
Oct 2023	24	11	1	36
Nov 2023	6	9	0	15
Dec 2023	17	10	0	27
Jan 2024	18	12	1	31
Feb 2024	13	16	0	29
Mar 2024	37	29	1	67
Apr 2024	20	11	4	35
May 2024	21	23	1	45
Jun 2024	61	15	3	79
Jul 2024	50	14	4	68
Aug 2024	36	11	5	52
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Oct 2024	27	15	1	43
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Cumulative views and downloads (calculated since 09 May 2019)

Month	HTML	PDF	XML	Total
May 2019	216	70	3	289
Jun 2019	18	7	0	25
Jul 2019	6	4	0	10
Aug 2019	11	6	0	17
Sep 2019	47	7	1	55
Oct 2019	2	4	0	6
Nov 2019	3	2	0	5
Dec 2019	4	3	1	8
Jan 2020	13	4	0	17
Feb 2020	3	2	0	5
Mar 2020	3	2	0	5
Apr 2020	8	2	0	10
May 2020	3	2	0	5
Jun 2020	11	2	0	13
Jul 2020	10	11	6	27
Aug 2020	2	1	1	4
Sep 2020	243	48	2	293
Oct 2020	144	22	1	167
Nov 2020	27	14	0	41
Dec 2020	44	7	0	51
Jan 2021	33	17	0	50
Feb 2021	13	6	0	19
Mar 2021	17	4	1	22
Apr 2021	19	6	0	25
May 2021	21	6	0	27
Jun 2021	15	10	0	25
Jul 2021	12	10	0	22
Aug 2021	14	12	0	26
Sep 2021	17	14	0	31
Oct 2021	15	33	0	48
Nov 2021	30	26	1	57
Dec 2021	15	14	0	29
Jan 2022	15	8	3	26
Feb 2022	13	3	1	17
Mar 2022	18	10	0	28
Apr 2022	24	4	2	30
May 2022	16	5	0	21
Jun 2022	16	5	0	21
Jul 2022	39	9	0	48
Aug 2022	105	8	0	113
Sep 2022	55	3	0	58
Oct 2022	13	4	3	20
Nov 2022	21	12	1	34
Dec 2022	21	11	0	32
Jan 2023	17	16	0	33
Feb 2023	24	16	1	41
Mar 2023	25	10	0	35
Apr 2023	20	10	0	30
May 2023	13	19	1	33
Jun 2023	17	8	5	30
Jul 2023	23	13	0	36
Aug 2023	27	19	4	50
Sep 2023	27	21	2	50
Oct 2023	24	11	1	36
Nov 2023	6	9	0	15
Dec 2023	17	10	0	27
Jan 2024	18	12	1	31
Feb 2024	13	16	0	29
Mar 2024	37	29	1	67
Apr 2024	20	11	4	35
May 2024	21	23	1	45
Jun 2024	61	15	3	79
Jul 2024	50	14	4	68
Aug 2024	36	11	5	52
Sep 2024	22	13	0	35
Oct 2024	27	15	1	43
Nov 2024	7	5	0	12

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Total article views: 2,794 (including HTML, PDF, and XML) Thereof 2,457 with geography defined and 337 with unknown origin.

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Short summary

This study incorporated microbial dormancy into a detailed microbe-based biogeochemistry model to examine the fate of Arctic carbon budgets under changing climate conditions. Compared with the model without microbial dormancy, the new model estimated a much higher carbon accumulation in the region during the last and current century. This study highlights the importance of the representation of microbial dormancy in earth system models to adequately quantify the carbon dynamics in the Arctic.

Microbial dormancy and its impacts on northern temperate and boreal terrestrial ecosystem carbon budget

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Cited

6 citations as recorded by crossref.

6 citations as recorded by crossref.


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