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

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Articles | Volume 18, issue 6

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

Articles | Volume 18, issue 6

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Peer review
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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

Ingeborg Bussmann

CORRESPONDING AUTHOR

ingeborg.bussmann@awi.de

https://orcid.org/0000-0002-1197-7461

Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research, Helgoland, Germany

Irina Fedorova

Institute of Earth Sciences, St. Petersburg University, St. Petersburg, Russia

Bennet Juhls

https://orcid.org/0000-0002-5844-6318

Institute for Space Sciences, Department of Earth Sciences, Freie Universität Berlin, Berlin, Germany

Pier Paul Overduin

https://orcid.org/0000-0001-9849-4712

Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research, Potsdam, Germany

Matthias Winkel

https://orcid.org/0000-0003-3692-0952

German Research Centre for Geoscience, 3.7 Geomicrobiology Group, Potsdam, Germany

current address: German Research Centre for Geosciences, 3.5 Interface Geochemistry Group, Potsdam, Germany

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Total article views: 2,719 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
1,877	767	75	2,719	66	73

HTML: 1,877
PDF: 767
XML: 75
Total: 2,719
BibTeX: 66
EndNote: 73

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Cumulative views and downloads (calculated since 22 Apr 2020)

Total article views: 2,008 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
1,435	507	66	2,008	50	58

HTML: 1,435
PDF: 507
XML: 66
Total: 2,008
BibTeX: 50
EndNote: 58

Views and downloads (calculated since 22 Mar 2021)

Month	HTML	PDF	XML	Total
Mar 2021	253	66	1	320
Apr 2021	76	20	3	99
May 2021	38	13	0	51
Jun 2021	16	8	0	24
Jul 2021	23	11	0	34
Aug 2021	24	11	0	35
Sep 2021	34	14	0	48
Oct 2021	31	46	0	77
Nov 2021	35	30	1	66
Dec 2021	30	5	0	35
Jan 2022	29	11	1	41
Feb 2022	19	10	1	30
Mar 2022	22	8	0	30
Apr 2022	20	7	2	29
May 2022	9	3	0	12
Jun 2022	9	5	0	14
Jul 2022	40	3	0	43
Aug 2022	49	9	1	59
Sep 2022	17	7	0	24
Oct 2022	30	4	2	36
Nov 2022	15	6	0	21
Dec 2022	23	7	1	31
Jan 2023	20	15	2	37
Feb 2023	23	5	1	29
Mar 2023	26	4	1	31
Apr 2023	18	7	0	25
May 2023	12	6	1	19
Jun 2023	12	8	0	20
Jul 2023	18	7	0	25
Aug 2023	14	6	2	22
Sep 2023	10	7	0	17
Oct 2023	12	6	2	20
Nov 2023	3	3	0	6
Dec 2023	21	2	0	23
Jan 2024	26	8	1	35
Feb 2024	17	10	0	27
Mar 2024	18	18	2	38
Apr 2024	22	8	3	33
May 2024	22	9	5	36
Jun 2024	69	6	23	98
Jul 2024	30	6	2	38
Aug 2024	39	7	4	50
Sep 2024	21	14	0	35
Oct 2024	42	4	0	46
Nov 2024	15	5	1	21
Dec 2024	12	5	1	18
Jan 2025	20	10	0	30
Feb 2025	17	7	0	24
Mar 2025	34	10	2	46
Apr 2025	0

Cumulative views and downloads (calculated since 22 Mar 2021)

Month	HTML	PDF	XML	Total
Mar 2021	253	66	1	320
Apr 2021	76	20	3	99
May 2021	38	13	0	51
Jun 2021	16	8	0	24
Jul 2021	23	11	0	34
Aug 2021	24	11	0	35
Sep 2021	34	14	0	48
Oct 2021	31	46	0	77
Nov 2021	35	30	1	66
Dec 2021	30	5	0	35
Jan 2022	29	11	1	41
Feb 2022	19	10	1	30
Mar 2022	22	8	0	30
Apr 2022	20	7	2	29
May 2022	9	3	0	12
Jun 2022	9	5	0	14
Jul 2022	40	3	0	43
Aug 2022	49	9	1	59
Sep 2022	17	7	0	24
Oct 2022	30	4	2	36
Nov 2022	15	6	0	21
Dec 2022	23	7	1	31
Jan 2023	20	15	2	37
Feb 2023	23	5	1	29
Mar 2023	26	4	1	31
Apr 2023	18	7	0	25
May 2023	12	6	1	19
Jun 2023	12	8	0	20
Jul 2023	18	7	0	25
Aug 2023	14	6	2	22
Sep 2023	10	7	0	17
Oct 2023	12	6	2	20
Nov 2023	3	3	0	6
Dec 2023	21	2	0	23
Jan 2024	26	8	1	35
Feb 2024	17	10	0	27
Mar 2024	18	18	2	38
Apr 2024	22	8	3	33
May 2024	22	9	5	36
Jun 2024	69	6	23	98
Jul 2024	30	6	2	38
Aug 2024	39	7	4	50
Sep 2024	21	14	0	35
Oct 2024	42	4	0	46
Nov 2024	15	5	1	21
Dec 2024	12	5	1	18
Jan 2025	20	10	0	30
Feb 2025	17	7	0	24
Mar 2025	34	10	2	46
Apr 2025	0

Total article views: 711 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
442	260	9	711	16	15

HTML: 442
PDF: 260
XML: 9
Total: 711
BibTeX: 16
EndNote: 15

Views and downloads (calculated since 22 Apr 2020)

Month	HTML	PDF	XML	Total
Mar 2021	253	66	1	320
Apr 2021	76	20	3	99
May 2021	38	13	0	51
Jun 2021	16	8	0	24
Jul 2021	23	11	0	34
Aug 2021	24	11	0	35
Sep 2021	34	14	0	48
Oct 2021	31	46	0	77
Nov 2021	35	30	1	66
Dec 2021	30	5	0	35
Jan 2022	29	11	1	41
Feb 2022	19	10	1	30
Mar 2022	22	8	0	30
Apr 2022	20	7	2	29
May 2022	9	3	0	12
Jun 2022	9	5	0	14
Jul 2022	40	3	0	43
Aug 2022	49	9	1	59
Sep 2022	17	7	0	24
Oct 2022	30	4	2	36
Nov 2022	15	6	0	21
Dec 2022	23	7	1	31
Jan 2023	20	15	2	37
Feb 2023	23	5	1	29
Mar 2023	26	4	1	31
Apr 2023	18	7	0	25
May 2023	12	6	1	19
Jun 2023	12	8	0	20
Jul 2023	18	7	0	25
Aug 2023	14	6	2	22
Sep 2023	10	7	0	17
Oct 2023	12	6	2	20
Nov 2023	3	3	0	6
Dec 2023	21	2	0	23
Jan 2024	26	8	1	35
Feb 2024	17	10	0	27
Mar 2024	18	18	2	38
Apr 2024	22	8	3	33
May 2024	22	9	5	36
Jun 2024	69	6	23	98
Jul 2024	30	6	2	38
Aug 2024	39	7	4	50
Sep 2024	21	14	0	35
Oct 2024	42	4	0	46
Nov 2024	15	5	1	21
Dec 2024	12	5	1	18
Jan 2025	20	10	0	30
Feb 2025	17	7	0	24
Mar 2025	34	10	2	46
Apr 2025	0

Cumulative views and downloads (calculated since 22 Apr 2020)

Month	HTML	PDF	XML	Total
Mar 2021	253	66	1	320
Apr 2021	76	20	3	99
May 2021	38	13	0	51
Jun 2021	16	8	0	24
Jul 2021	23	11	0	34
Aug 2021	24	11	0	35
Sep 2021	34	14	0	48
Oct 2021	31	46	0	77
Nov 2021	35	30	1	66
Dec 2021	30	5	0	35
Jan 2022	29	11	1	41
Feb 2022	19	10	1	30
Mar 2022	22	8	0	30
Apr 2022	20	7	2	29
May 2022	9	3	0	12
Jun 2022	9	5	0	14
Jul 2022	40	3	0	43
Aug 2022	49	9	1	59
Sep 2022	17	7	0	24
Oct 2022	30	4	2	36
Nov 2022	15	6	0	21
Dec 2022	23	7	1	31
Jan 2023	20	15	2	37
Feb 2023	23	5	1	29
Mar 2023	26	4	1	31
Apr 2023	18	7	0	25
May 2023	12	6	1	19
Jun 2023	12	8	0	20
Jul 2023	18	7	0	25
Aug 2023	14	6	2	22
Sep 2023	10	7	0	17
Oct 2023	12	6	2	20
Nov 2023	3	3	0	6
Dec 2023	21	2	0	23
Jan 2024	26	8	1	35
Feb 2024	17	10	0	27
Mar 2024	18	18	2	38
Apr 2024	22	8	3	33
May 2024	22	9	5	36
Jun 2024	69	6	23	98
Jul 2024	30	6	2	38
Aug 2024	39	7	4	50
Sep 2024	21	14	0	35
Oct 2024	42	4	0	46
Nov 2024	15	5	1	21
Dec 2024	12	5	1	18
Jan 2025	20	10	0	30
Feb 2025	17	7	0	24
Mar 2025	34	10	2	46
Apr 2025	0

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Show all Final revised paper only Preprint only

Total article views: 2,719 (including HTML, PDF, and XML) Thereof 2,558 with geography defined and 161 with unknown origin.

Total article views: 2,008 (including HTML, PDF, and XML) Thereof 1,941 with geography defined and 67 with unknown origin.

Total article views: 711 (including HTML, PDF, and XML) Thereof 617 with geography defined and 94 with unknown origin.

Country	#	Views	%
United States of America	1	858	31
Germany	2	442	16
China	3	396	14
Russia	4	93	3
India	5	80	2

Country	#	Views	%
United States of America	1	655	32
China	2	373	18
Germany	3	237	11
Russia	4	71	3
India	5	67	3

Country	#	Views	%
Germany	1	205	28
United States of America	2	203	28
France	3	32	4
Canada	4	24	3
China	5	23	3


Total:	0
HTML:	0
PDF:	0
XML:	0

858


Total:	0
HTML:	0
PDF:	0
XML:	0

655


Total:	0
HTML:	0
PDF:	0
XML:	0

205

Cited

Show all Final revised paper only Preprint only

10 citations as recorded by crossref.

Bubbles dominated the significant spatiotemporal variability and accumulation of methane concentrations in an ice-covered reservoir Y. Jin et al. 10.1016/j.scitotenv.2024.170362
Methane emissions from thermokarst lakes must emphasize the ice-melting impact on the Tibetan Plateau C. Mu et al. 10.1038/s41467-025-57745-2
Characteristics of temporal changes and influencing factors of carbon dioxide and methane fluxes at the water-gas interface of the Inner Mongolia section of the Yellow River . Aruhan et al. 10.1080/02705060.2024.2328704
High methane emissions from thermokarst lakes on the Tibetan Plateau are largely attributed to ebullition fluxes L. Wang et al. 10.1016/j.scitotenv.2021.149692
Environmental determinants of aerobic methane oxidation in a tropical river network L. Patel et al. 10.1016/j.watres.2024.122257
The Great Vasyugan Mire of western Siberia: Hydrochemistry and greenhouse gas dynamics of peatland pools of the world’s largest mire S. Vorobyev et al. 10.1016/j.ecolind.2024.113054
Post-drainage vegetation, microtopography and organic matter in Arctic drained lake basins J. Wolter et al. 10.1088/1748-9326/ad2eeb
Monitoring Methane Concentrations with High Spatial Resolution over China by Using Random Forest Model Z. Jin et al. 10.3390/rs16142525
Diverse winter communities and biogeochemical cycling potential in the under-ice microbial plankton of a subarctic river-to-sea continuum M. Blais et al. 10.1128/spectrum.04160-23
Advances in understanding of air–sea exchange and cycling of greenhouse gases in the upper ocean H. Bange et al. 10.1525/elementa.2023.00044

10 citations as recorded by crossref.

Bubbles dominated the significant spatiotemporal variability and accumulation of methane concentrations in an ice-covered reservoir Y. Jin et al. 10.1016/j.scitotenv.2024.170362
Methane emissions from thermokarst lakes must emphasize the ice-melting impact on the Tibetan Plateau C. Mu et al. 10.1038/s41467-025-57745-2
Characteristics of temporal changes and influencing factors of carbon dioxide and methane fluxes at the water-gas interface of the Inner Mongolia section of the Yellow River . Aruhan et al. 10.1080/02705060.2024.2328704
High methane emissions from thermokarst lakes on the Tibetan Plateau are largely attributed to ebullition fluxes L. Wang et al. 10.1016/j.scitotenv.2021.149692
Environmental determinants of aerobic methane oxidation in a tropical river network L. Patel et al. 10.1016/j.watres.2024.122257
The Great Vasyugan Mire of western Siberia: Hydrochemistry and greenhouse gas dynamics of peatland pools of the world’s largest mire S. Vorobyev et al. 10.1016/j.ecolind.2024.113054
Post-drainage vegetation, microtopography and organic matter in Arctic drained lake basins J. Wolter et al. 10.1088/1748-9326/ad2eeb
Monitoring Methane Concentrations with High Spatial Resolution over China by Using Random Forest Model Z. Jin et al. 10.3390/rs16142525
Diverse winter communities and biogeochemical cycling potential in the under-ice microbial plankton of a subarctic river-to-sea continuum M. Blais et al. 10.1128/spectrum.04160-23
Advances in understanding of air–sea exchange and cycling of greenhouse gases in the upper ocean H. Bange et al. 10.1525/elementa.2023.00044

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Latest update: 02 Apr 2025

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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.

Arctic rivers, lakes, and bays are affected by a warming climate. We measured the amount and...

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