Transport-driven aerosol differences above and below  the canopy of a mixed deciduous forest

Bui, Alexander A. T.; Wallace, Henry W.; Kavassalis, Sarah; Alwe, Hariprasad D.; Flynn, James H.; Erickson, Matt H.; Alvarez, Sergio; Millet, Dylan B.; Steiner, Allison L.; Griffin, Robert J.

doi:https://doi.org/10.5194/acp-21-17031-2021

Articles | Volume 21, issue 22

https://doi.org/10.5194/acp-21-17031-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-21-17031-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 21, issue 22

Research article

|

24 Nov 2021

Research article |

| 24 Nov 2021

Transport-driven aerosol differences above and below the canopy of a mixed deciduous forest

Alexander A. T. Bui, Henry W. Wallace, Sarah Kavassalis, Hariprasad D. Alwe, James H. Flynn, Matt H. Erickson, Sergio Alvarez, Dylan B. Millet, Allison L. Steiner, and Robert J. Griffin

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Total article views: 2,014 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
1,478	487	49	2,014	216	27	37

HTML: 1,478
PDF: 487
XML: 49
Total: 2,014
Supplement: 216
BibTeX: 27
EndNote: 37

Views and downloads (calculated since 20 May 2021)

Month	HTML	PDF	XML	Total
May 2021	75	25	1	101
Jun 2021	28	12	1	41
Jul 2021	43	13	2	58
Aug 2021	37	14	1	52
Sep 2021	30	10	3	43
Oct 2021	16	16	0	32
Nov 2021	189	53	0	242
Dec 2021	188	36	5	229
Jan 2022	72	21	0	93
Feb 2022	54	4	2	60
Mar 2022	56	9	0	65
Apr 2022	46	11	1	58
May 2022	41	8	0	49
Jun 2022	35	1	0	36
Jul 2022	53	4	0	57
Aug 2022	73	15	0	88
Sep 2022	25	11	0	36
Oct 2022	18	5	2	25
Nov 2022	24	8	0	32
Dec 2022	11	11	1	23
Jan 2023	11	21	0	32
Feb 2023	19	4	0	23
Mar 2023	20	8	3	31
Apr 2023	13	9	0	22
May 2023	12	7	2	21
Jun 2023	13	3	1	17
Jul 2023	10	12	1	23
Aug 2023	16	11	2	29
Sep 2023	9	6	0	15
Oct 2023	18	6	2	26
Nov 2023	11	7	1	19
Dec 2023	21	6	2	29
Jan 2024	9	6	2	17
Feb 2024	16	7	0	23
Mar 2024	20	21	1	42
Apr 2024	15	22	2	39
May 2024	13	7	3	23
Jun 2024	52	8	4	64
Jul 2024	9	6	2	17
Aug 2024	23	13	2	38
Sep 2024	16	5	0	21
Oct 2024	18	5	0	23

Cumulative views and downloads (calculated since 20 May 2021)

Month	HTML	PDF	XML	Total
May 2021	75	25	1	101
Jun 2021	28	12	1	41
Jul 2021	43	13	2	58
Aug 2021	37	14	1	52
Sep 2021	30	10	3	43
Oct 2021	16	16	0	32
Nov 2021	189	53	0	242
Dec 2021	188	36	5	229
Jan 2022	72	21	0	93
Feb 2022	54	4	2	60
Mar 2022	56	9	0	65
Apr 2022	46	11	1	58
May 2022	41	8	0	49
Jun 2022	35	1	0	36
Jul 2022	53	4	0	57
Aug 2022	73	15	0	88
Sep 2022	25	11	0	36
Oct 2022	18	5	2	25
Nov 2022	24	8	0	32
Dec 2022	11	11	1	23
Jan 2023	11	21	0	32
Feb 2023	19	4	0	23
Mar 2023	20	8	3	31
Apr 2023	13	9	0	22
May 2023	12	7	2	21
Jun 2023	13	3	1	17
Jul 2023	10	12	1	23
Aug 2023	16	11	2	29
Sep 2023	9	6	0	15
Oct 2023	18	6	2	26
Nov 2023	11	7	1	19
Dec 2023	21	6	2	29
Jan 2024	9	6	2	17
Feb 2024	16	7	0	23
Mar 2024	20	21	1	42
Apr 2024	15	22	2	39
May 2024	13	7	3	23
Jun 2024	52	8	4	64
Jul 2024	9	6	2	17
Aug 2024	23	13	2	38
Sep 2024	16	5	0	21
Oct 2024	18	5	0	23

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Total article views: 2,014 (including HTML, PDF, and XML) Thereof 2,107 with geography defined and -93 with unknown origin.

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Short summary

Differences in atmospheric species above and below a forest canopy provide insight into the relative importance of local mixing, long-range transport, and chemical processes in determining vertical gradients in atmospheric particles in a forested environment. This helps in understanding the flux of climate-relevant material out of the forest to the atmosphere. We studied this in a remote forest using vertically resolved measurements of gases and particles.

Transport-driven aerosol differences above and below the canopy of a mixed deciduous forest

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