Measurement report: Observations of long-lived volatile organic compounds from the 2019–2020 Australian wildfires during the COALA campaign

Mouat, Asher P.; Paton-Walsh, Clare; Simmons, Jack B.; Ramirez-Gamboa, Jhonathan; Griffith, David W. T.; Kaiser, Jennifer

doi:https://doi.org/10.5194/acp-22-11033-2022

Articles | Volume 22, issue 17

https://doi.org/10.5194/acp-22-11033-2022

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

https://doi.org/10.5194/acp-22-11033-2022

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

Articles | Volume 22, issue 17

Measurement report

|

31 Aug 2022

Measurement report |

| 31 Aug 2022

Measurement report: Observations of long-lived volatile organic compounds from the 2019–2020 Australian wildfires during the COALA campaign

Asher P. Mouat, Clare Paton-Walsh, Jack B. Simmons, Jhonathan Ramirez-Gamboa, David W. T. Griffith, and Jennifer Kaiser

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XML: 65
Total: 3,115
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BibTeX: 63
EndNote: 78

Views and downloads (calculated since 09 Sep 2021)

Month	HTML	PDF	XML	Total
Sep 2021	228	60	6	294
Oct 2021	66	22	4	92
Nov 2021	41	21	0	62
Dec 2021	31	10	1	42
Jan 2022	22	7	3	32
Feb 2022	25	8	3	36
Mar 2022	24	11	1	36
Apr 2022	16	7	0	23
May 2022	11	4	1	16
Jun 2022	12	4	1	17
Jul 2022	14	8	1	23
Aug 2022	17	13	1	31
Sep 2022	355	55	3	413
Oct 2022	82	10	2	94
Nov 2022	95	18	0	113
Dec 2022	77	19	1	97
Jan 2023	37	21	0	58
Feb 2023	31	19	0	50
Mar 2023	32	18	0	50
Apr 2023	27	13	0	40
May 2023	20	13	1	34
Jun 2023	31	13	2	46
Jul 2023	20	16	0	36
Aug 2023	21	17	3	41
Sep 2023	13	16	0	29
Oct 2023	23	15	1	39
Nov 2023	18	9	0	27
Dec 2023	24	10	1	35
Jan 2024	27	11	1	39
Feb 2024	44	24	0	68
Mar 2024	39	23	2	64
Apr 2024	44	13	3	60
May 2024	26	15	0	41
Jun 2024	59	14	1	74
Jul 2024	55	9	1	65
Aug 2024	45	19	3	67
Sep 2024	25	9	1	35
Oct 2024	65	10	7	82
Nov 2024	25	21	1	47
Dec 2024	20	12	0	32
Jan 2025	34	20	0	54
Feb 2025	32	12	0	44
Mar 2025	32	20	1	53
Apr 2025	35	15	2	52
May 2025	46	16	0	62
Jun 2025	70	25	4	99
Jul 2025	38	21	1	60
Aug 2025	29	16	1	46
Sep 2025	53	12	0	65

Cumulative views and downloads (calculated since 09 Sep 2021)

Month	HTML	PDF	XML	Total
Sep 2021	228	60	6	294
Oct 2021	66	22	4	92
Nov 2021	41	21	0	62
Dec 2021	31	10	1	42
Jan 2022	22	7	3	32
Feb 2022	25	8	3	36
Mar 2022	24	11	1	36
Apr 2022	16	7	0	23
May 2022	11	4	1	16
Jun 2022	12	4	1	17
Jul 2022	14	8	1	23
Aug 2022	17	13	1	31
Sep 2022	355	55	3	413
Oct 2022	82	10	2	94
Nov 2022	95	18	0	113
Dec 2022	77	19	1	97
Jan 2023	37	21	0	58
Feb 2023	31	19	0	50
Mar 2023	32	18	0	50
Apr 2023	27	13	0	40
May 2023	20	13	1	34
Jun 2023	31	13	2	46
Jul 2023	20	16	0	36
Aug 2023	21	17	3	41
Sep 2023	13	16	0	29
Oct 2023	23	15	1	39
Nov 2023	18	9	0	27
Dec 2023	24	10	1	35
Jan 2024	27	11	1	39
Feb 2024	44	24	0	68
Mar 2024	39	23	2	64
Apr 2024	44	13	3	60
May 2024	26	15	0	41
Jun 2024	59	14	1	74
Jul 2024	55	9	1	65
Aug 2024	45	19	3	67
Sep 2024	25	9	1	35
Oct 2024	65	10	7	82
Nov 2024	25	21	1	47
Dec 2024	20	12	0	32
Jan 2025	34	20	0	54
Feb 2025	32	12	0	44
Mar 2025	32	20	1	53
Apr 2025	35	15	2	52
May 2025	46	16	0	62
Jun 2025	70	25	4	99
Jul 2025	38	21	1	60
Aug 2025	29	16	1	46
Sep 2025	53	12	0	65

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We examine emissions of volatile organic compounds from 2020 wildfires in forested regions of Australia (AU). We find that biomass burning in temperate regions of the US and AU emit similar species in similar proportion, both in natural and lab settings. This suggests studies of wildfires in one region may be used to help improve air quality models in other parts of the world. We observe time series of ozone and nitrogen dioxide. Last, we look at which compounds contribute most to OH reactivity.

Measurement report: Observations of long-lived volatile organic compounds from the 2019–2020 Australian wildfires during the COALA campaign

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