Methane dynamics in three different Siberian water  bodies under winter and summer conditions

Bussmann, Ingeborg; Fedorova, Irina; Juhls, Bennet; Overduin, Pier Paul; Winkel, Matthias

doi:https://doi.org/10.5194/bg-18-2047-2021

Articles | Volume 18, issue 6

https://doi.org/10.5194/bg-18-2047-2021

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

https://doi.org/10.5194/bg-18-2047-2021

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

Articles | Volume 18, issue 6

Research article

|

22 Mar 2021

Research article |

| 22 Mar 2021

Methane dynamics in three different Siberian water bodies under winter and summer conditions

Ingeborg Bussmann, Irina Fedorova, Bennet Juhls, Pier Paul Overduin, and Matthias Winkel

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XML: 37
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Views and downloads (calculated since 22 Apr 2020)

Month	HTML	PDF	XML	Total
Apr 2020	126	38	3	167
May 2020	38	12	0	50
Jun 2020	23	5	0	28
Jul 2020	24	11	4	39
Aug 2020	11	5	0	16
Sep 2020	17	10	0	27
Oct 2020	12	4	1	17
Nov 2020	40	10	0	50
Dec 2020	18	13	1	32
Jan 2021	13	6	0	19
Feb 2021	22	3	0	25
Mar 2021	272	78	1	351
Apr 2021	92	24	3	119
May 2021	43	21	0	64
Jun 2021	18	12	0	30
Jul 2021	25	12	0	37
Aug 2021	24	14	0	38
Sep 2021	35	19	0	54
Oct 2021	31	48	0	79
Nov 2021	37	35	1	73
Dec 2021	31	12	0	43
Jan 2022	29	13	1	43
Feb 2022	20	10	1	31
Mar 2022	23	11	0	34
Apr 2022	21	11	2	34
May 2022	10	4	0	14
Jun 2022	9	9	0	18
Jul 2022	40	7	0	47
Aug 2022	49	12	1	62
Sep 2022	19	14	0	33
Oct 2022	32	6	2	40
Nov 2022	15	7	0	22
Dec 2022	25	11	1	37
Jan 2023	21	20	2	43
Feb 2023	28	7	1	36
Mar 2023	26	6	1	33
Apr 2023	19	8	0	27
May 2023	13	10	1	24
Jun 2023	14	9	0	23
Jul 2023	18	9	0	27
Aug 2023	14	7	2	23
Sep 2023	10	9	0	19
Oct 2023	13	7	2	22
Nov 2023	3	3	0	6
Dec 2023	26	2	0	28
Jan 2024	26	10	1	37
Feb 2024	17	10	0	27
Mar 2024	19	23	2	44
Apr 2024	18	10	3	31

Cumulative views and downloads (calculated since 22 Apr 2020)

Month	HTML	PDF	XML	Total
Apr 2020	126	38	3	167
May 2020	38	12	0	50
Jun 2020	23	5	0	28
Jul 2020	24	11	4	39
Aug 2020	11	5	0	16
Sep 2020	17	10	0	27
Oct 2020	12	4	1	17
Nov 2020	40	10	0	50
Dec 2020	18	13	1	32
Jan 2021	13	6	0	19
Feb 2021	22	3	0	25
Mar 2021	272	78	1	351
Apr 2021	92	24	3	119
May 2021	43	21	0	64
Jun 2021	18	12	0	30
Jul 2021	25	12	0	37
Aug 2021	24	14	0	38
Sep 2021	35	19	0	54
Oct 2021	31	48	0	79
Nov 2021	37	35	1	73
Dec 2021	31	12	0	43
Jan 2022	29	13	1	43
Feb 2022	20	10	1	31
Mar 2022	23	11	0	34
Apr 2022	21	11	2	34
May 2022	10	4	0	14
Jun 2022	9	9	0	18
Jul 2022	40	7	0	47
Aug 2022	49	12	1	62
Sep 2022	19	14	0	33
Oct 2022	32	6	2	40
Nov 2022	15	7	0	22
Dec 2022	25	11	1	37
Jan 2023	21	20	2	43
Feb 2023	28	7	1	36
Mar 2023	26	6	1	33
Apr 2023	19	8	0	27
May 2023	13	10	1	24
Jun 2023	14	9	0	23
Jul 2023	18	9	0	27
Aug 2023	14	7	2	23
Sep 2023	10	9	0	19
Oct 2023	13	7	2	22
Nov 2023	3	3	0	6
Dec 2023	26	2	0	28
Jan 2024	26	10	1	37
Feb 2024	17	10	0	27
Mar 2024	19	23	2	44
Apr 2024	18	10	3	31

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Total article views: 2,223 (including HTML, PDF, and XML) Thereof 2,063 with geography defined and 160 with unknown origin.

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1

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Latest update: 25 Apr 2024

Short summary

Arctic rivers, lakes, and bays are affected by a warming climate. We measured the amount and consumption of methane in waters from Siberia under ice cover and in open water. In the lake, methane concentrations under ice cover were much higher than in summer, and methane consumption was highest. The ice cover leads to higher methane concentration under ice. In a warmer Arctic, there will be more time with open water when methane is consumed by bacteria, and less methane will escape into the air.