Detection of dilution due to turbulent mixing vs. precipitation scavenging effects on biomass burning aerosol concentrations using stable water isotope ratios during ORACLES

Henze, Dean; Noone, David; Toohey, Darin

doi:10.5194/acp-23-15269-2023

Articles | Volume 23, issue 24

https://doi.org/10.5194/acp-23-15269-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-23-15269-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 23, issue 24

Research article

|

14 Dec 2023

Research article |

| 14 Dec 2023

Detection of dilution due to turbulent mixing vs. precipitation scavenging effects on biomass burning aerosol concentrations using stable water isotope ratios during ORACLES

Dean Henze, David Noone, and Darin Toohey

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Aug 2023	18	6	0	24
Sep 2023	29	12	2	43
Oct 2023	22	6	2	30
Nov 2023	16	1	1	18
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Feb 2024	25	9	0	34
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Apr 2024	16	8	4	28
May 2024	22	1	2	25
Jun 2024	69	11	4	84
Jul 2024	48	2	2	52
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Apr 2025	37	4	0	41
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Jun 2025	71	3	2	76
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Oct 2025	36	12	2	50
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Dec 2025	51	13	8	72
Jan 2026	44	10	6	60
Feb 2026	67	6	1	74
Mar 2026	33	10	7	50
Apr 2026	19	8	0	27

Cumulative views and downloads (calculated since 06 Feb 2023)

Month	HTML	PDF	XML	Total
Feb 2023	124	26	7	157
Mar 2023	53	16	5	74
Apr 2023	16	2	0	18
May 2023	21	7	0	28
Jun 2023	27	10	3	40
Jul 2023	21	11	1	33
Aug 2023	18	6	0	24
Sep 2023	29	12	2	43
Oct 2023	22	6	2	30
Nov 2023	16	1	1	18
Dec 2023	216	24	13	253
Jan 2024	74	15	3	92
Feb 2024	25	9	0	34
Mar 2024	40	15	5	60
Apr 2024	16	8	4	28
May 2024	22	1	2	25
Jun 2024	69	11	4	84
Jul 2024	48	2	2	52
Aug 2024	28	5	1	34
Sep 2024	12	2	0	14
Oct 2024	22	6	0	28
Nov 2024	19	2	1	22
Dec 2024	11	4	1	16
Jan 2025	22	3	0	25
Feb 2025	23	2	1	26
Mar 2025	16	10	1	27
Apr 2025	37	4	0	41
May 2025	53	9	2	64
Jun 2025	71	3	2	76
Jul 2025	27	10	2	39
Aug 2025	69	6	0	75
Sep 2025	71	8	4	83
Oct 2025	36	12	2	50
Nov 2025	55	19	4	78
Dec 2025	51	13	8	72
Jan 2026	44	10	6	60
Feb 2026	67	6	1	74
Mar 2026	33	10	7	50
Apr 2026	19	8	0	27

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Short summary

The interaction between biomass burning aerosols and clouds remains challenging to accurately determine from observations. This is in part because of difficulties distinguishing aerosol differences due to precipitation versus dilution processes from the observations. This study addresses the challenge by utilizing atmospheric heavy water isotope ratios to constrain mixing versus precipitation processes during a field campaign (ORACLES) and in turn explain observed aerosol concentrations.

Detection of dilution due to turbulent mixing vs. precipitation scavenging effects on biomass burning aerosol concentrations using stable water isotope ratios during ORACLES

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