Capturing temporal heterogeneity in soil nitrous oxide fluxes with a robust and low-cost automated chamber apparatus

Lawrence, Nathaniel C.; Hall, Steven J.

doi:10.5194/amt-13-4065-2020

Articles | Volume 13, issue 7

https://doi.org/10.5194/amt-13-4065-2020

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

https://doi.org/10.5194/amt-13-4065-2020

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

Articles | Volume 13, issue 7

Research article

|

29 Jul 2020

Research article |

| 29 Jul 2020

Capturing temporal heterogeneity in soil nitrous oxide fluxes with a robust and low-cost automated chamber apparatus

Nathaniel C. Lawrence and Steven J. Hall

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Total article views: 3,183 (including HTML, PDF, and XML)

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PDF: 1,096
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Supplement: 241
BibTeX: 120
EndNote: 145

Views and downloads (calculated since 17 Feb 2020)

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Apr 2020	29	8	1	38
May 2020	18	3	0	21
Jun 2020	18	5	0	23
Jul 2020	64	26	6	96
Aug 2020	86	36	6	128
Sep 2020	35	19	1	55
Oct 2020	28	10	0	38
Nov 2020	46	17	0	63
Dec 2020	84	20	0	104
Jan 2021	21	9	0	30
Feb 2021	16	21	1	38
Mar 2021	20	12	0	32
Apr 2021	13	9	0	22
May 2021	22	12	1	35
Jun 2021	11	21	0	32
Jul 2021	13	21	1	35
Aug 2021	21	16	1	38
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Dec 2021	18	12	0	30
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Feb 2022	20	9	1	30
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Feb 2025	20	12	0	32
Mar 2025	13	15	0	28
Apr 2025	25	19	0	44
May 2025	21	10	1	32
Jun 2025	34	13	1	48
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Aug 2025	21	12	2	35
Sep 2025	41	11	2	54
Oct 2025	24	12	1	37
Nov 2025	30	23	5	58
Dec 2025	35	28	3	66
Jan 2026	41	27	10	78
Feb 2026	35	10	5	50
Mar 2026	42	12	10	64
Apr 2026	57	39	3	99
May 2026	21	21	0	42
Jun 2026	5	5	1	11

Cumulative views and downloads (calculated since 17 Feb 2020)

Month	HTML	PDF	XML	Total
Feb 2020	99	26	1	126
Mar 2020	33	6	0	39
Apr 2020	29	8	1	38
May 2020	18	3	0	21
Jun 2020	18	5	0	23
Jul 2020	64	26	6	96
Aug 2020	86	36	6	128
Sep 2020	35	19	1	55
Oct 2020	28	10	0	38
Nov 2020	46	17	0	63
Dec 2020	84	20	0	104
Jan 2021	21	9	0	30
Feb 2021	16	21	1	38
Mar 2021	20	12	0	32
Apr 2021	13	9	0	22
May 2021	22	12	1	35
Jun 2021	11	21	0	32
Jul 2021	13	21	1	35
Aug 2021	21	16	1	38
Sep 2021	15	23	0	38
Oct 2021	14	33	0	47
Nov 2021	25	36	0	61
Dec 2021	18	12	0	30
Jan 2022	13	15	0	28
Feb 2022	20	9	1	30
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Apr 2022	10	11	2	23
May 2022	11	16	1	28
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Jul 2022	15	12	1	28
Aug 2022	69	27	0	96
Sep 2022	32	7	1	40
Oct 2022	13	8	1	22
Nov 2022	22	17	1	40
Dec 2022	8	8	0	16
Jan 2023	18	14	1	33
Feb 2023	16	15	1	32
Mar 2023	17	17	1	35
Apr 2023	11	4	0	15
May 2023	12	8	2	22
Jun 2023	9	4	1	14
Jul 2023	13	12	1	26
Aug 2023	10	18	1	29
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Jan 2024	16	16	0	32
Feb 2024	9	8	0	17
Mar 2024	15	12	0	27
Apr 2024	17	6	3	26
May 2024	31	13	2	46
Jun 2024	53	11	5	69
Jul 2024	43	10	2	55
Aug 2024	27	15	2	44
Sep 2024	13	7	0	20
Oct 2024	21	9	1	31
Nov 2024	19	6	1	26
Dec 2024	16	7	7	30
Jan 2025	21	11	1	33
Feb 2025	20	12	0	32
Mar 2025	13	15	0	28
Apr 2025	25	19	0	44
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Jun 2025	34	13	1	48
Jul 2025	49	15	4	68
Aug 2025	21	12	2	35
Sep 2025	41	11	2	54
Oct 2025	24	12	1	37
Nov 2025	30	23	5	58
Dec 2025	35	28	3	66
Jan 2026	41	27	10	78
Feb 2026	35	10	5	50
Mar 2026	42	12	10	64
Apr 2026	57	39	3	99
May 2026	21	21	0	42
Jun 2026	5	5	1	11

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Short summary

Soil emissions of nitrous oxide (N₂O), a potent greenhouse gas, are highly variable over space and time. Existing approaches for automated N₂O emission measurements are costly and often incompatible with flooded soils. We describe and validate a robust and low-cost apparatus for replicated measurement of soil N₂O emissions at subdaily resolution over large spatial gradients (> 100 m). High-frequency measurements are critical for constraining and mitigating the soil N₂O source.

Capturing temporal heterogeneity in soil nitrous oxide fluxes with a robust and low-cost automated chamber apparatus

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5 citations as recorded by crossref.

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