Biogenic emissions and land–atmosphere interactions as drivers of the daytime evolution of secondary organic aerosol in the southeastern US

Nagori, Juhi; Janssen, Ruud H. H.; Fry, Juliane L.; Krol, Maarten; Jimenez, Jose L.; Hu, Weiwei; Vilà-Guerau de Arellano, Jordi

doi:https://doi.org/10.5194/acp-19-701-2019

Articles | Volume 19, issue 2

https://doi.org/10.5194/acp-19-701-2019

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

https://doi.org/10.5194/acp-19-701-2019

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

Articles | Volume 19, issue 2

Research article

|

18 Jan 2019

Research article |

| 18 Jan 2019

Biogenic emissions and land–atmosphere interactions as drivers of the daytime evolution of secondary organic aerosol in the southeastern US

Juhi Nagori, Ruud H. H. Janssen, Juliane L. Fry, Maarten Krol, Jose L. Jimenez, Weiwei Hu, and Jordi Vilà-Guerau de Arellano

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Jul 2021	13	19	1	33
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Dec 2021	23	11	0	34
Jan 2022	13	9	3	25
Feb 2022	10	10	4	24
Mar 2022	20	8	0	28
Apr 2022	23	12	1	36
May 2022	16	10	2	28
Jun 2022	11	4	4	19
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Nov 2022	26	9	5	40
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Jan 2023	58	6	0	64
Feb 2023	35	7	0	42
Mar 2023	49	15	0	64
Apr 2023	32	15	0	47
May 2023	43	26	1	70
Jun 2023	32	17	0	49
Jul 2023	35	16	1	52
Aug 2023	62	28	6	96
Sep 2023	37	18	1	56
Oct 2023	16	13	1	30
Nov 2023	19	5	0	24
Dec 2023	94	14	1	109
Jan 2024	176	13	1	190
Feb 2024	16	18	1	35
Mar 2024	22	22	2	46
Apr 2024	23	15	2	40
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Jul 2024	473	16	0	489
Aug 2024	32	12	2	46
Sep 2024	21	7	0	28
Oct 2024	31	13	0	44
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Dec 2024	26	5	2	33
Jan 2025	31	8	0	39
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Mar 2025	18	13	2	33
Apr 2025	19	12	2	33
May 2025	26	3	1	30
Jun 2025	50	10	1	61
Jul 2025	34	17	2	53
Aug 2025	44	13	0	57
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Oct 2025	41	28	0	69
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Cumulative views and downloads (calculated since 10 Aug 2018)

Month	HTML	PDF	XML	Total
Aug 2018	190	51	5	246
Sep 2018	50	14	0	64
Oct 2018	22	10	0	32
Nov 2018	25	8	0	33
Dec 2018	17	8	0	25
Jan 2019	247	74	3	324
Feb 2019	75	25	1	101
Mar 2019	34	25	1	60
Apr 2019	22	18	1	41
May 2019	32	25	0	57
Jun 2019	45	21	0	66
Jul 2019	30	17	1	48
Aug 2019	18	8	3	29
Sep 2019	14	12	0	26
Oct 2019	27	4	2	33
Nov 2019	15	8	0	23
Dec 2019	24	5	0	29
Jan 2020	20	6	1	27
Feb 2020	32	11	2	45
Mar 2020	13	12	0	25
Apr 2020	15	10	0	25
May 2020	19	4	0	23
Jun 2020	18	16	1	35
Jul 2020	24	12	6	42
Aug 2020	17	8	1	26
Sep 2020	12	5	1	18
Oct 2020	17	9	0	26
Nov 2020	11	9	0	20
Dec 2020	19	5	0	24
Jan 2021	18	13	3	34
Feb 2021	19	7	0	26
Mar 2021	16	5	0	21
Apr 2021	17	11	5	33
May 2021	13	7	1	21
Jun 2021	11	6	0	17
Jul 2021	13	19	1	33
Aug 2021	13	12	1	26
Sep 2021	20	19	0	39
Oct 2021	16	35	2	53
Nov 2021	20	25	0	45
Dec 2021	23	11	0	34
Jan 2022	13	9	3	25
Feb 2022	10	10	4	24
Mar 2022	20	8	0	28
Apr 2022	23	12	1	36
May 2022	16	10	2	28
Jun 2022	11	4	4	19
Jul 2022	19	7	4	30
Aug 2022	37	5	2	44
Sep 2022	15	5	0	20
Oct 2022	14	3	1	18
Nov 2022	26	9	5	40
Dec 2022	59	12	1	72
Jan 2023	58	6	0	64
Feb 2023	35	7	0	42
Mar 2023	49	15	0	64
Apr 2023	32	15	0	47
May 2023	43	26	1	70
Jun 2023	32	17	0	49
Jul 2023	35	16	1	52
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Sep 2023	37	18	1	56
Oct 2023	16	13	1	30
Nov 2023	19	5	0	24
Dec 2023	94	14	1	109
Jan 2024	176	13	1	190
Feb 2024	16	18	1	35
Mar 2024	22	22	2	46
Apr 2024	23	15	2	40
May 2024	25	19	3	47
Jun 2024	47	12	1	60
Jul 2024	473	16	0	489
Aug 2024	32	12	2	46
Sep 2024	21	7	0	28
Oct 2024	31	13	0	44
Nov 2024	13	5	1	19
Dec 2024	26	5	2	33
Jan 2025	31	8	0	39
Feb 2025	51	8	1	60
Mar 2025	18	13	2	33
Apr 2025	19	12	2	33
May 2025	26	3	1	30
Jun 2025	50	10	1	61
Jul 2025	34	17	2	53
Aug 2025	44	13	0	57
Sep 2025	183	20	7	210
Oct 2025	41	28	0	69
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Short summary

Secondary organic aerosol (SOA) is produced through a complex interaction of sunlight, volatile organic compounds emitted from trees, anthropogenic emissions, and atmospheric chemistry. We are able to successfully model the formation and diurnal evolution of SOA using a model that takes into consideration the surface and boundary layer dynamics (1–2 km from the surface) and photochemistry above the southeastern US with data collected during the SOAS campaign to constrain the model.


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