Bulk and molecular-level characterization of laboratory-aged biomass burning organic aerosol from oak leaf and heartwood fuels

Fortenberry, Claire F.; Walker, Michael J.; Zhang, Yaping; Mitroo, Dhruv; Brune, William H.; Williams, Brent J.

doi:10.5194/acp-18-2199-2018

Articles | Volume 18, issue 3

https://doi.org/10.5194/acp-18-2199-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-18-2199-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 18, issue 3

Research article

|

15 Feb 2018

Research article |

| 15 Feb 2018

Bulk and molecular-level characterization of laboratory-aged biomass burning organic aerosol from oak leaf and heartwood fuels

Claire F. Fortenberry, Michael J. Walker, Yaping Zhang, Dhruv Mitroo, William H. Brune, and Brent J. Williams

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Cumulative views and downloads (calculated since 05 Jul 2017)

Month	HTML	PDF	XML	Total
Jul 2017	244	90	6	340
Aug 2017	67	23	1	91
Sep 2017	27	26	1	54
Oct 2017	25	11	0	36
Nov 2017	29	6	0	35
Dec 2017	18	7	3	28
Jan 2018	26	10	2	38
Feb 2018	217	94	6	317
Mar 2018	48	42	2	92
Apr 2018	26	19	1	46
May 2018	17	18	1	36
Jun 2018	20	21	0	41
Jul 2018	12	17	0	29
Aug 2018	17	15	0	32
Sep 2018	10	23	0	33
Oct 2018	15	21	3	39
Nov 2018	18	30	1	49
Dec 2018	14	10	3	27
Jan 2019	13	15	1	29
Feb 2019	12	9	0	21
Mar 2019	9	11	1	21
Apr 2019	13	6	0	19
May 2019	13	13	0	26
Jun 2019	22	14	0	36
Jul 2019	12	13	0	25
Aug 2019	7	8	0	15
Sep 2019	8	7	0	15
Oct 2019	17	9	1	27
Nov 2019	6	13	0	19
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Jul 2020	16	24	5	45
Aug 2020	7	15	1	23
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Jan 2021	15	12	1	28
Feb 2021	7	8	0	15
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Apr 2021	20	7	0	27
May 2021	17	18	0	35
Jun 2021	11	12	0	23
Jul 2021	10	13	0	23
Aug 2021	12	12	0	24
Sep 2021	16	16	0	32
Oct 2021	9	41	0	50
Nov 2021	15	30	1	46
Dec 2021	18	12	0	30
Jan 2022	11	8	0	19
Feb 2022	9	8	1	18
Mar 2022	14	8	0	22
Apr 2022	12	6	1	19
May 2022	11	3	0	14
Jun 2022	18	5	1	24
Jul 2022	47	6	0	53
Aug 2022	103	6	1	110
Sep 2022	14	7	0	21
Oct 2022	16	6	0	22
Nov 2022	30	9	0	39
Dec 2022	14	4	0	18
Jan 2023	23	6	0	29
Feb 2023	25	9	0	34
Mar 2023	28	18	0	46
Apr 2023	14	8	0	22
May 2023	14	10	0	24
Jun 2023	27	13	1	41
Jul 2023	17	13	1	31
Aug 2023	20	12	2	34
Sep 2023	16	8	0	24
Oct 2023	29	15	1	45
Nov 2023	16	5	0	21
Dec 2023	39	9	2	50
Jan 2024	30	10	0	40
Feb 2024	19	5	0	24
Mar 2024	29	22	1	52
Apr 2024	32	6	3	41
May 2024	34	19	4	57
Jun 2024	52	9	1	62
Jul 2024	41	7	3	51
Aug 2024	34	6	3	43
Sep 2024	17	4	0	21
Oct 2024	34	6	0	40
Nov 2024	27	6	1	34
Dec 2024	34	3	1	38
Jan 2025	32	10	4	46
Feb 2025	38	9	0	47
Mar 2025	36	12	1	49
Apr 2025	26	18	3	47
May 2025	23	10	0	33
Jun 2025	46	14	3	63
Jul 2025	31	20	1	52
Aug 2025	25	16	1	42
Sep 2025	52	19	3	74
Oct 2025	23	26	0	49
Nov 2025	27	21	6	54

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Short summary

In these laboratory studies, two types of biomass burning organic aerosol (BBOA) were generated in a combustion chamber and treated in a flow reactor to mimic atmospheric oxidation. Complementary bulk and molecular chemical measurements show that while many species deplete with oxidation, oxidized BBOA markers are enhanced. The results provide insight into the complex chemical evolution of BBOA over nearly 10 days of atmospheric photochemistry, informing future laboratory and field studies.


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