Characterization of aerosol growth events over Ellesmere Island during the summers of 2015 and 2016

Tremblay, Samantha; Picard, Jean-Christophe; Bachelder, Jill O.; Lutsch, Erik; Strong, Kimberly; Fogal, Pierre; Leaitch, W. Richard; Sharma, Sangeeta; Kolonjari, Felicia; Cox, Christopher J.; Chang, Rachel Y.-W.; Hayes, Patrick L.

doi:10.5194/acp-19-5589-2019

Articles | Volume 19, issue 8

https://doi.org/10.5194/acp-19-5589-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

NETCARE (Network on Aerosols and Climate: Addressing Key Uncertainties...

https://doi.org/10.5194/acp-19-5589-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 8

Research article

|

30 Apr 2019

Research article |

| 30 Apr 2019

Characterization of aerosol growth events over Ellesmere Island during the summers of 2015 and 2016

Samantha Tremblay, Jean-Christophe Picard, Jill O. Bachelder, Erik Lutsch, Kimberly Strong, Pierre Fogal, W. Richard Leaitch, Sangeeta Sharma, Felicia Kolonjari, Christopher J. Cox, Rachel Y.-W. Chang, and Patrick L. Hayes

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Cumulative views and downloads (calculated since 08 May 2018)

Month	HTML	PDF	XML	Total
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Jun 2018	45	30	1	76
Jul 2018	32	11	0	43
Aug 2018	27	11	2	40
Sep 2018	20	14	0	34
Oct 2018	16	4	3	23
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Jan 2019	19	11	0	30
Feb 2019	14	4	0	18
Mar 2019	11	8	0	19
Apr 2019	101	36	0	137
May 2019	179	44	6	229
Jun 2019	58	16	0	74
Jul 2019	29	20	3	52
Aug 2019	22	10	0	32
Sep 2019	16	10	0	26
Oct 2019	21	16	0	37
Nov 2019	9	14	0	23
Dec 2019	15	11	0	26
Jan 2020	13	10	0	23
Feb 2020	17	8	2	27
Mar 2020	12	8	2	22
Apr 2020	17	8	0	25
May 2020	42	4	0	46
Jun 2020	21	12	0	33
Jul 2020	25	15	4	44
Aug 2020	18	12	2	32
Sep 2020	10	7	2	19
Oct 2020	8	6	0	14
Nov 2020	21	9	0	30
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Jan 2021	14	8	0	22
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Aug 2021	18	7	0	25
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Nov 2021	23	30	0	53
Dec 2021	24	9	1	34
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Feb 2022	18	9	1	28
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Apr 2022	26	9	2	37
May 2022	12	5	0	17
Jun 2022	9	7	0	16
Jul 2022	12	3	0	15
Aug 2022	39	11	1	51
Sep 2022	15	4	1	20
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Nov 2022	11	11	0	22
Dec 2022	16	8	2	26
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Feb 2023	20	5	0	25
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May 2023	18	7	1	26
Jun 2023	10	4	0	14
Jul 2023	18	13	1	32
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Oct 2023	66	9	2	77
Nov 2023	49	1	1	51
Dec 2023	14	18	3	35
Jan 2024	10	6	1	17
Feb 2024	13	8	0	21
Mar 2024	21	14	2	37
Apr 2024	13	10	2	25
May 2024	27	8	5	40
Jun 2024	57	12	2	71
Jul 2024	35	9	1	45
Aug 2024	25	12	1	38
Sep 2024	10	4	1	15
Oct 2024	25	12	1	38
Nov 2024	8	2	1	11
Dec 2024	20	9	2	31
Jan 2025	22	16	1	39
Feb 2025	40	16	0	56
Mar 2025	21	6	0	27
Apr 2025	21	13	2	36
May 2025	38	7	0	45
Jun 2025	55	13	7	75
Jul 2025	37	19	1	57
Aug 2025	35	17	1	53
Sep 2025	72	18	2	92
Oct 2025	27	24	2	53
Nov 2025	12	13	2	27

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Short summary

Atmospheric aerosols, tiny airborne particles, have an important impact on climate. However, a lack of understanding of the chemistry of aerosols is one of the largest contributors to uncertainty in predictions of climate change. Measurements of aerosols were carried out in the Arctic at Eureka Station, Canada, to better understand what role aerosols play in this fragile environment. It is found that organic aerosols, possibly originating from marine emissions, are ubiquitous during summertime.


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