Aerosol dynamics within and above forest in relation to turbulent transport  and dry deposition

Rannik, Üllar; Zhou, Luxi; Zhou, Putian; Gierens, Rosa; Mammarella, Ivan; Sogachev, Andrey; Boy, Michael

doi:https://doi.org/10.5194/acp-16-3145-2016

Articles | Volume 16, issue 5

https://doi.org/10.5194/acp-16-3145-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/acp-16-3145-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 16, issue 5

Research article

|

09 Mar 2016

Research article |

| 09 Mar 2016

Aerosol dynamics within and above forest in relation to turbulent transport and dry deposition

Üllar Rannik, Luxi Zhou, Putian Zhou, Rosa Gierens, Ivan Mammarella, Andrey Sogachev, and Michael Boy

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Jul 2015	79	99	3	181
Aug 2015	26	19	3	48
Sep 2015	18	22	22	62
Oct 2015	25	12	11	48
Nov 2015	20	12	7	39
Dec 2015	5	11	5	21
Jan 2016	22	6	2	30
Feb 2016	17	3	1	21
Mar 2016	152	79	0	231
Apr 2016	18	12	0	30
May 2016	20	10	1	31
Jun 2016	6	5	2	13
Jul 2016	15	4	3	22
Aug 2016	11	6	1	18
Sep 2016	10	6	0	16
Oct 2016	10	3	0	13
Nov 2016	8	1	0	9
Dec 2016	4	2	0	6
Jan 2017	17	8	0	25
Feb 2017	13	6	0	19
Mar 2017	17	13	1	31
Apr 2017	20	16	0	36
May 2017	28	20	0	48
Jun 2017	24	9	1	34
Jul 2017	21	8	0	29
Aug 2017	6	8	0	14
Sep 2017	9	10	0	19
Oct 2017	8	10	0	18
Nov 2017	7	17	0	24
Dec 2017	10	13	0	23
Jan 2018	8	13	0	21
Feb 2018	7	6	0	13
Mar 2018	10	10	0	20
Apr 2018	10	4	0	14
May 2018	8	6	1	15
Jun 2018	6	11	0	17
Jul 2018	5	8	0	13
Aug 2018	18	6	0	24
Sep 2018	7	12	0	19
Oct 2018	17	8	4	29
Nov 2018	11	9	1	21
Dec 2018	9	3	1	13
Jan 2019	5	5	0	10
Feb 2019	5	5	0	10
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Aug 2020	10	7	2	19
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Aug 2021	6	9	0	15
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Jul 2022	5	7	0	12
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Feb 2023	11	2	0	13
Mar 2023	15	6	0	21
Apr 2023	12	2	0	14
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Jun 2023	38	4	2	44
Jul 2023	39	7	1	47
Aug 2023	34	8	3	45
Sep 2023	35	5	2	42
Oct 2023	44	8	2	54
Nov 2023	24	1	25
Dec 2023	36	6	1	43
Jan 2024	39	2	0	41
Feb 2024	37	11	0	48
Mar 2024	45	7	4	56
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Cumulative views and downloads (calculated since 16 Jul 2015)

Month	HTML	PDF	XML	Total
Jul 2015	79	99	3	181
Aug 2015	26	19	3	48
Sep 2015	18	22	22	62
Oct 2015	25	12	11	48
Nov 2015	20	12	7	39
Dec 2015	5	11	5	21
Jan 2016	22	6	2	30
Feb 2016	17	3	1	21
Mar 2016	152	79	0	231
Apr 2016	18	12	0	30
May 2016	20	10	1	31
Jun 2016	6	5	2	13
Jul 2016	15	4	3	22
Aug 2016	11	6	1	18
Sep 2016	10	6	0	16
Oct 2016	10	3	0	13
Nov 2016	8	1	0	9
Dec 2016	4	2	0	6
Jan 2017	17	8	0	25
Feb 2017	13	6	0	19
Mar 2017	17	13	1	31
Apr 2017	20	16	0	36
May 2017	28	20	0	48
Jun 2017	24	9	1	34
Jul 2017	21	8	0	29
Aug 2017	6	8	0	14
Sep 2017	9	10	0	19
Oct 2017	8	10	0	18
Nov 2017	7	17	0	24
Dec 2017	10	13	0	23
Jan 2018	8	13	0	21
Feb 2018	7	6	0	13
Mar 2018	10	10	0	20
Apr 2018	10	4	0	14
May 2018	8	6	1	15
Jun 2018	6	11	0	17
Jul 2018	5	8	0	13
Aug 2018	18	6	0	24
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Oct 2018	17	8	4	29
Nov 2018	11	9	1	21
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Jan 2019	5	5	0	10
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May 2020	9	4	1	14
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Jan 2023	6	7	1	14
Feb 2023	11	2	0	13
Mar 2023	15	6	0	21
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May 2023	35	10	3	48
Jun 2023	38	4	2	44
Jul 2023	39	7	1	47
Aug 2023	34	8	3	45
Sep 2023	35	5	2	42
Oct 2023	44	8	2	54
Nov 2023	24	1	25
Dec 2023	36	6	1	43
Jan 2024	39	2	0	41
Feb 2024	37	11	0	48
Mar 2024	45	7	4	56
Apr 2024	14	6	2	22

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Short summary

Atmospheric boundary layer (ABL) model coupled with detailed atmospheric chemistry and aerosol dynamical model was used to quantify the role of aerosol and ABL dynamics in the vertical transport of aerosols at a pine forest site in southern Finland. Simulations showed that under dynamical conditions the particle fluxes above canopy can significantly deviate from the dry deposition into the canopy. The deviation can be systematic for certain particle sizes over a period of several days.

Aerosol dynamics within and above forest in relation to turbulent transport and dry deposition

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