Gaps in network infrastructure limit our understanding of biogenic methane emissions for the United States

Malone, Sparkle L.; Oh, Youmi; Arndt, Kyle A.; Burba, George; Commane, Roisin; Contosta, Alexandra R.; Goodrich, Jordan P.; Loescher, Henry W.; Starr, Gregory; Varner, Ruth K.

doi:https://doi.org/10.5194/bg-19-2507-2022

Articles | Volume 19, issue 9

https://doi.org/10.5194/bg-19-2507-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-19-2507-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 9

Research article

| Highlight paper

|

13 May 2022

Research article | Highlight paper |

| 13 May 2022

Gaps in network infrastructure limit our understanding of biogenic methane emissions for the United States

Sparkle L. Malone, Youmi Oh, Kyle A. Arndt, George Burba, Roisin Commane, Alexandra R. Contosta, Jordan P. Goodrich, Henry W. Loescher, Gregory Starr, and Ruth K. Varner

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XML: 89
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BibTeX: 71
EndNote: 80

Views and downloads (calculated since 05 Oct 2021)

Month	HTML	PDF	XML	Total
Oct 2021	346	85	4	435
Nov 2021	105	24	5	134
Dec 2021	58	19	5	82
Jan 2022	36	6	0	42
Feb 2022	19	6	1	26
Mar 2022	23	11	1	35
Apr 2022	54	14	2	70
May 2022	378	63	5	446
Jun 2022	142	21	3	166
Jul 2022	109	13	1	123
Aug 2022	168	23	0	191
Sep 2022	120	23	0	143
Oct 2022	80	13	1	94
Nov 2022	83	12	0	95
Dec 2022	77	16	1	94
Jan 2023	55	16	0	71
Feb 2023	70	18	1	89
Mar 2023	82	8	1	91
Apr 2023	65	13	0	78
May 2023	59	15	0	74
Jun 2023	71	13	2	86
Jul 2023	64	14	0	78
Aug 2023	55	18	3	76
Sep 2023	66	22	1	89
Oct 2023	70	23	0	93
Nov 2023	38	8	1	47
Dec 2023	35	11	1	47
Jan 2024	54	16	0	70
Feb 2024	33	14	2	49
Mar 2024	44	21	3	68
Apr 2024	31	10	1	42
May 2024	57	17	6	80
Jun 2024	83	12	2	97
Jul 2024	47	12	5	64
Aug 2024	63	15	7	85
Sep 2024	56	9	3	68
Oct 2024	75	31	14	120
Nov 2024	31	11	7	49

Cumulative views and downloads (calculated since 05 Oct 2021)

Month	HTML	PDF	XML	Total
Oct 2021	346	85	4	435
Nov 2021	105	24	5	134
Dec 2021	58	19	5	82
Jan 2022	36	6	0	42
Feb 2022	19	6	1	26
Mar 2022	23	11	1	35
Apr 2022	54	14	2	70
May 2022	378	63	5	446
Jun 2022	142	21	3	166
Jul 2022	109	13	1	123
Aug 2022	168	23	0	191
Sep 2022	120	23	0	143
Oct 2022	80	13	1	94
Nov 2022	83	12	0	95
Dec 2022	77	16	1	94
Jan 2023	55	16	0	71
Feb 2023	70	18	1	89
Mar 2023	82	8	1	91
Apr 2023	65	13	0	78
May 2023	59	15	0	74
Jun 2023	71	13	2	86
Jul 2023	64	14	0	78
Aug 2023	55	18	3	76
Sep 2023	66	22	1	89
Oct 2023	70	23	0	93
Nov 2023	38	8	1	47
Dec 2023	35	11	1	47
Jan 2024	54	16	0	70
Feb 2024	33	14	2	49
Mar 2024	44	21	3	68
Apr 2024	31	10	1	42
May 2024	57	17	6	80
Jun 2024	83	12	2	97
Jul 2024	47	12	5	64
Aug 2024	63	15	7	85
Sep 2024	56	9	3	68
Oct 2024	75	31	14	120
Nov 2024	31	11	7	49

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Short summary

To understand the CH₄ flux potential of natural ecosystems and agricultural lands in the United States of America, a multi-scale CH₄ observation network focused on CH₄ flux rates, processes, and scaling methods is required. This can be achieved with a network of ground-based observations that are distributed based on climatic regions and land cover.

Gaps in network infrastructure limit our understanding of biogenic methane emissions for the United States

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