Rhizosphere to the atmosphere: contrasting methane pathways, fluxes, and geochemical drivers across the terrestrial–aquatic wetland boundary

Jeffrey, Luke C.; Maher, Damien T.; Johnston, Scott G.; Maguire, Kylie; Steven, Andrew D. L.; Tait, Douglas R.

doi:10.5194/bg-16-1799-2019

Articles | Volume 16, issue 8

https://doi.org/10.5194/bg-16-1799-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-16-1799-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 16, issue 8

Research article

|

29 Apr 2019

Research article |

| 29 Apr 2019

Rhizosphere to the atmosphere: contrasting methane pathways, fluxes, and geochemical drivers across the terrestrial–aquatic wetland boundary

Luke C. Jeffrey, Damien T. Maher, Scott G. Johnston, Kylie Maguire, Andrew D. L. Steven, and Douglas R. Tait

Viewed

Total article views: 3,994 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,766	1,135	93	3,994	90	137

HTML: 2,766
PDF: 1,135
XML: 93
Total: 3,994
BibTeX: 90
EndNote: 137

Views and downloads (calculated since 22 Jan 2019)

Month	HTML	PDF	XML	Total
Jan 2019	261	64	3	328
Feb 2019	37	11	0	48
Mar 2019	30	16	0	46
Apr 2019	185	41	1	227
May 2019	197	59	4	260
Jun 2019	73	21	0	94
Jul 2019	25	15	0	40
Aug 2019	16	16	1	33
Sep 2019	21	7	1	29
Oct 2019	28	23	2	53
Nov 2019	37	10	0	47
Dec 2019	33	9	0	42
Jan 2020	32	20	1	53
Feb 2020	32	8	0	40
Mar 2020	18	3	0	21
Apr 2020	30	5	2	37
May 2020	17	4	0	21
Jun 2020	34	14	1	49
Jul 2020	41	20	2	63
Aug 2020	30	8	4	42
Sep 2020	22	7	0	29
Oct 2020	17	15	1	33
Nov 2020	8	4	1	13
Dec 2020	18	9	0	27
Jan 2021	24	12	1	37
Feb 2021	14	16	1	31
Mar 2021	17	8	1	26
Apr 2021	16	18	1	35
May 2021	17	13	0	30
Jun 2021	12	9	0	21
Jul 2021	17	11	0	28
Aug 2021	21	14	0	35
Sep 2021	18	29	0	47
Oct 2021	13	38	1	52
Nov 2021	25	31	1	57
Dec 2021	19	15	1	35
Jan 2022	24	8	0	32
Feb 2022	27	7	0	34
Mar 2022	23	16	0	39
Apr 2022	16	8	2	26
May 2022	15	11	1	27
Jun 2022	23	12	1	36
Jul 2022	10	4	0	14
Aug 2022	52	10	2	64
Sep 2022	35	4	1	40
Oct 2022	37	8	0	45
Nov 2022	18	6	0	24
Dec 2022	15	6	0	21
Jan 2023	20	8	0	28
Feb 2023	27	5	3	35
Mar 2023	23	13	0	36
Apr 2023	11	9	0	20
May 2023	19	12	0	31
Jun 2023	11	4	1	16
Jul 2023	10	9	0	19
Aug 2023	13	8	3	24
Sep 2023	13	10	0	23
Oct 2023	24	6	2	32
Nov 2023	13	5	0	18
Dec 2023	38	7	0	45
Jan 2024	26	12	3	41
Feb 2024	7	10	0	17
Mar 2024	28	16	1	45
Apr 2024	31	20	6	57
May 2024	17	7	8	32
Jun 2024	62	11	2	75
Jul 2024	82	11	4	97
Aug 2024	41	17	2	60
Sep 2024	20	7	0	27
Oct 2024	27	2	1	30
Nov 2024	34	9	2	45
Dec 2024	20	4	2	26
Jan 2025	37	12	2	51
Feb 2025	34	13	0	47
Mar 2025	24	3	0	27
Apr 2025	31	11	1	43
May 2025	39	20	2	61
Jun 2025	57	28	0	85
Jul 2025	37	13	2	52
Aug 2025	26	14	3	43
Sep 2025	46	25	3	74
Oct 2025	51	42	1	94
Nov 2025	17	9	1	27

Cumulative views and downloads (calculated since 22 Jan 2019)

Month	HTML	PDF	XML	Total
Jan 2019	261	64	3	328
Feb 2019	37	11	0	48
Mar 2019	30	16	0	46
Apr 2019	185	41	1	227
May 2019	197	59	4	260
Jun 2019	73	21	0	94
Jul 2019	25	15	0	40
Aug 2019	16	16	1	33
Sep 2019	21	7	1	29
Oct 2019	28	23	2	53
Nov 2019	37	10	0	47
Dec 2019	33	9	0	42
Jan 2020	32	20	1	53
Feb 2020	32	8	0	40
Mar 2020	18	3	0	21
Apr 2020	30	5	2	37
May 2020	17	4	0	21
Jun 2020	34	14	1	49
Jul 2020	41	20	2	63
Aug 2020	30	8	4	42
Sep 2020	22	7	0	29
Oct 2020	17	15	1	33
Nov 2020	8	4	1	13
Dec 2020	18	9	0	27
Jan 2021	24	12	1	37
Feb 2021	14	16	1	31
Mar 2021	17	8	1	26
Apr 2021	16	18	1	35
May 2021	17	13	0	30
Jun 2021	12	9	0	21
Jul 2021	17	11	0	28
Aug 2021	21	14	0	35
Sep 2021	18	29	0	47
Oct 2021	13	38	1	52
Nov 2021	25	31	1	57
Dec 2021	19	15	1	35
Jan 2022	24	8	0	32
Feb 2022	27	7	0	34
Mar 2022	23	16	0	39
Apr 2022	16	8	2	26
May 2022	15	11	1	27
Jun 2022	23	12	1	36
Jul 2022	10	4	0	14
Aug 2022	52	10	2	64
Sep 2022	35	4	1	40
Oct 2022	37	8	0	45
Nov 2022	18	6	0	24
Dec 2022	15	6	0	21
Jan 2023	20	8	0	28
Feb 2023	27	5	3	35
Mar 2023	23	13	0	36
Apr 2023	11	9	0	20
May 2023	19	12	0	31
Jun 2023	11	4	1	16
Jul 2023	10	9	0	19
Aug 2023	13	8	3	24
Sep 2023	13	10	0	23
Oct 2023	24	6	2	32
Nov 2023	13	5	0	18
Dec 2023	38	7	0	45
Jan 2024	26	12	3	41
Feb 2024	7	10	0	17
Mar 2024	28	16	1	45
Apr 2024	31	20	6	57
May 2024	17	7	8	32
Jun 2024	62	11	2	75
Jul 2024	82	11	4	97
Aug 2024	41	17	2	60
Sep 2024	20	7	0	27
Oct 2024	27	2	1	30
Nov 2024	34	9	2	45
Dec 2024	20	4	2	26
Jan 2025	37	12	2	51
Feb 2025	34	13	0	47
Mar 2025	24	3	0	27
Apr 2025	31	11	1	43
May 2025	39	20	2	61
Jun 2025	57	28	0	85
Jul 2025	37	13	2	52
Aug 2025	26	14	3	43
Sep 2025	46	25	3	74
Oct 2025	51	42	1	94
Nov 2025	17	9	1	27

Viewed (geographical distribution)

Total article views: 3,994 (including HTML, PDF, and XML) Thereof 3,416 with geography defined and 578 with unknown origin.

Country	#	Views	%

1

1

Latest update: 15 Nov 2025

Short summary

Wetlands represent the largest natural source of methane (CH₄), so understanding CH₄ drivers is important for management and climate models. We compared several CH₄ pathways of a remediated subtropical Australian wetland. We found permanently inundated sites emitted more CH₄ than seasonally inundated sites and that the soil properties of each site corresponded to CH₄ emissions. This suggests that selective wetland remediation of favourable soil types may help to mitigate unwanted CH₄ emissions.


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


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


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