Evaluating the impact of new observational constraints on P-S/IVOC emissions, multi-generation oxidation, and chamber wall losses on SOA modeling for Los Angeles, CA

Ma, Prettiny K.; Zhao, Yunliang; Robinson, Allen L.; Worton, David R.; Goldstein, Allen H.; Ortega, Amber M.; Jimenez, Jose L.; Zotter, Peter; Prévôt, André S. H.; Szidat, Sönke; Hayes, Patrick L.

doi:10.5194/acp-17-9237-2017

Articles | Volume 17, issue 15

https://doi.org/10.5194/acp-17-9237-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/acp-17-9237-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 17, issue 15

Research article

|

01 Aug 2017

Research article |

| 01 Aug 2017

Evaluating the impact of new observational constraints on P-S/IVOC emissions, multi-generation oxidation, and chamber wall losses on SOA modeling for Los Angeles, CA

Prettiny K. Ma, Yunliang Zhao, Allen L. Robinson, David R. Worton, Allen H. Goldstein, Amber M. Ortega, Jose L. Jimenez, Peter Zotter, André S. H. Prévôt, Sönke Szidat, and Patrick L. Hayes

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Total article views: 5,638 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
3,912	1,571	155	5,638	722	161	258

HTML: 3,912
PDF: 1,571
XML: 155
Total: 5,638
Supplement: 722
BibTeX: 161
EndNote: 258

Views and downloads (calculated since 11 Nov 2016)

Month	HTML	PDF	XML	Total
Nov 2016	114	27	0	141
Dec 2016	17	3	0	20
Jan 2017	55	16	2	73
Feb 2017	37	12	3	52
Mar 2017	57	21	8	86
Apr 2017	167	13	9	189
May 2017	69	16	6	91
Jun 2017	53	8	7	68
Jul 2017	16	3	0	19
Aug 2017	364	141	6	511
Sep 2017	53	26	0	79
Oct 2017	23	25	1	49
Nov 2017	24	27	1	52
Dec 2017	36	14	0	50
Jan 2018	102	15	1	118
Feb 2018	50	22	1	73
Mar 2018	24	19	1	44
Apr 2018	22	14	0	36
May 2018	20	20	2	42
Jun 2018	26	22	0	48
Jul 2018	14	17	1	32
Aug 2018	27	13	0	40
Sep 2018	26	12	1	39
Oct 2018	21	13	3	37
Nov 2018	33	19	2	54
Dec 2018	20	5	1	26
Jan 2019	11	12	0	23
Feb 2019	12	7	0	19
Mar 2019	10	9	0	19
Apr 2019	6	6	0	12
May 2019	12	10	0	22
Jun 2019	7	8	0	15
Jul 2019	7	14	1	22
Aug 2019	6	13	4	23
Sep 2019	8	7	0	15
Oct 2019	13	8	2	23
Nov 2019	18	6	0	24
Dec 2019	16	7	0	23
Jan 2020	17	6	1	24
Feb 2020	13	9	1	23
Mar 2020	9	3	0	12
Apr 2020	8	4	0	12
May 2020	13	10	0	23
Jun 2020	15	13	0	28
Jul 2020	13	16	2	31
Aug 2020	9	11	1	21
Sep 2020	14	13	0	27
Oct 2020	10	11	1	22
Nov 2020	14	14	1	29
Dec 2020	12	11	2	25
Jan 2021	13	5	0	18
Feb 2021	17	10	0	27
Mar 2021	17	6	0	23
Apr 2021	21	6	0	27
May 2021	14	9	2	25
Jun 2021	19	13	0	32
Jul 2021	23	17	0	40
Aug 2021	16	12	1	29
Sep 2021	20	16	1	37
Oct 2021	19	45	1	65
Nov 2021	14	30	0	44
Dec 2021	26	18	1	45
Jan 2022	18	16	3	37
Feb 2022	14	12	3	29
Mar 2022	17	13	0	30
Apr 2022	18	10	1	29
May 2022	21	5	0	26
Jun 2022	15	7	1	23
Jul 2022	13	6	1	20
Aug 2022	26	13	0	39
Sep 2022	32	9	0	41
Oct 2022	36	13	3	52
Nov 2022	34	14	1	49
Dec 2022	22	9	2	33
Jan 2023	14	14	1	29
Feb 2023	19	10	1	30
Mar 2023	33	15	2	50
Apr 2023	14	13	1	28
May 2023	48	11	1	60
Jun 2023	62	10	1	73
Jul 2023	49	7	0	56
Aug 2023	46	17	6	69
Sep 2023	57	14	0	71
Oct 2023	121	12	2	135
Nov 2023	117	5	4	126
Dec 2023	61	19	5	85
Jan 2024	48	18	0	66
Feb 2024	122	8	1	131
Mar 2024	52	20	2	74
Apr 2024	45	13	3	61
May 2024	37	28	3	68
Jun 2024	16	13	1	30
Jul 2024	26	16	4	46
Aug 2024	33	12	2	47
Sep 2024	19	6	2	27
Oct 2024	25	8	0	33
Nov 2024	29	6	4	39
Dec 2024	26	12	3	41
Jan 2025	42	6	3	51
Feb 2025	39	15	0	54
Mar 2025	24	14	1	39
Apr 2025	38	23	2	63
May 2025	29	10	0	39
Jun 2025	83	16	3	102
Jul 2025	39	17	1	57
Aug 2025	105	20	0	125
Sep 2025	123	21	3	147
Oct 2025	31	26	0	57
Nov 2025	12	11	0	23

Cumulative views and downloads (calculated since 11 Nov 2016)

Month	HTML	PDF	XML	Total
Nov 2016	114	27	0	141
Dec 2016	17	3	0	20
Jan 2017	55	16	2	73
Feb 2017	37	12	3	52
Mar 2017	57	21	8	86
Apr 2017	167	13	9	189
May 2017	69	16	6	91
Jun 2017	53	8	7	68
Jul 2017	16	3	0	19
Aug 2017	364	141	6	511
Sep 2017	53	26	0	79
Oct 2017	23	25	1	49
Nov 2017	24	27	1	52
Dec 2017	36	14	0	50
Jan 2018	102	15	1	118
Feb 2018	50	22	1	73
Mar 2018	24	19	1	44
Apr 2018	22	14	0	36
May 2018	20	20	2	42
Jun 2018	26	22	0	48
Jul 2018	14	17	1	32
Aug 2018	27	13	0	40
Sep 2018	26	12	1	39
Oct 2018	21	13	3	37
Nov 2018	33	19	2	54
Dec 2018	20	5	1	26
Jan 2019	11	12	0	23
Feb 2019	12	7	0	19
Mar 2019	10	9	0	19
Apr 2019	6	6	0	12
May 2019	12	10	0	22
Jun 2019	7	8	0	15
Jul 2019	7	14	1	22
Aug 2019	6	13	4	23
Sep 2019	8	7	0	15
Oct 2019	13	8	2	23
Nov 2019	18	6	0	24
Dec 2019	16	7	0	23
Jan 2020	17	6	1	24
Feb 2020	13	9	1	23
Mar 2020	9	3	0	12
Apr 2020	8	4	0	12
May 2020	13	10	0	23
Jun 2020	15	13	0	28
Jul 2020	13	16	2	31
Aug 2020	9	11	1	21
Sep 2020	14	13	0	27
Oct 2020	10	11	1	22
Nov 2020	14	14	1	29
Dec 2020	12	11	2	25
Jan 2021	13	5	0	18
Feb 2021	17	10	0	27
Mar 2021	17	6	0	23
Apr 2021	21	6	0	27
May 2021	14	9	2	25
Jun 2021	19	13	0	32
Jul 2021	23	17	0	40
Aug 2021	16	12	1	29
Sep 2021	20	16	1	37
Oct 2021	19	45	1	65
Nov 2021	14	30	0	44
Dec 2021	26	18	1	45
Jan 2022	18	16	3	37
Feb 2022	14	12	3	29
Mar 2022	17	13	0	30
Apr 2022	18	10	1	29
May 2022	21	5	0	26
Jun 2022	15	7	1	23
Jul 2022	13	6	1	20
Aug 2022	26	13	0	39
Sep 2022	32	9	0	41
Oct 2022	36	13	3	52
Nov 2022	34	14	1	49
Dec 2022	22	9	2	33
Jan 2023	14	14	1	29
Feb 2023	19	10	1	30
Mar 2023	33	15	2	50
Apr 2023	14	13	1	28
May 2023	48	11	1	60
Jun 2023	62	10	1	73
Jul 2023	49	7	0	56
Aug 2023	46	17	6	69
Sep 2023	57	14	0	71
Oct 2023	121	12	2	135
Nov 2023	117	5	4	126
Dec 2023	61	19	5	85
Jan 2024	48	18	0	66
Feb 2024	122	8	1	131
Mar 2024	52	20	2	74
Apr 2024	45	13	3	61
May 2024	37	28	3	68
Jun 2024	16	13	1	30
Jul 2024	26	16	4	46
Aug 2024	33	12	2	47
Sep 2024	19	6	2	27
Oct 2024	25	8	0	33
Nov 2024	29	6	4	39
Dec 2024	26	12	3	41
Jan 2025	42	6	3	51
Feb 2025	39	15	0	54
Mar 2025	24	14	1	39
Apr 2025	38	23	2	63
May 2025	29	10	0	39
Jun 2025	83	16	3	102
Jul 2025	39	17	1	57
Aug 2025	105	20	0	125
Sep 2025	123	21	3	147
Oct 2025	31	26	0	57
Nov 2025	12	11	0	23

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Total article views: 5,638 (including HTML, PDF, and XML) Thereof 5,632 with geography defined and 6 with unknown origin.

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1

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Short summary

Airborne particulate matter (PM) negatively impacts air quality in cities throughout the world. An important fraction of PM is organic aerosol. We have evaluated and developed several new models for secondary organic aerosol (SOA), which is formed from the chemical processing of gaseous precursors. Using our model results, we have quantified important SOA sources and precursors and also identified possible model parameterizations that could be used for air quality predictions.


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