The (mis)identification of high-latitude dust events using remote sensing methods in the Yukon, Canada:  a sub-daily variability analysis

Huck, Rosemary; Bryant, Robert G.; King, James

doi:10.5194/acp-23-6299-2023

Articles | Volume 23, issue 11

https://doi.org/10.5194/acp-23-6299-2023

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

https://doi.org/10.5194/acp-23-6299-2023

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

Articles | Volume 23, issue 11

Research article

|

09 Jun 2023

Research article |

| 09 Jun 2023

The (mis)identification of high-latitude dust events using remote sensing methods in the Yukon, Canada: a sub-daily variability analysis

Rosemary Huck, Robert G. Bryant, and James King

Viewed

Total article views: 4,439 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
3,016	1,265	158	4,439	471	184	238

HTML: 3,016
PDF: 1,265
XML: 158
Total: 4,439
Supplement: 471
BibTeX: 184
EndNote: 238

Views and downloads (calculated since 16 Jan 2023)

Month	HTML	PDF	XML	Total
Jan 2023	131	52	7	190
Feb 2023	67	16	3	86
Mar 2023	32	13	1	46
Apr 2023	30	13	8	51
May 2023	23	6	1	30
Jun 2023	360	59	9	428
Jul 2023	99	11	2	112
Aug 2023	85	13	2	100
Sep 2023	99	17	2	118
Oct 2023	77	7	2	86
Nov 2023	48	19	0	67
Dec 2023	39	14	1	54
Jan 2024	25	9	1	35
Feb 2024	19	11	0	30
Mar 2024	28	20	1	49
Apr 2024	29	10	3	42
May 2024	33	16	4	53
Jun 2024	66	11	5	82
Jul 2024	74	18	9	101
Aug 2024	44	14	8	66
Sep 2024	43	7	0	50
Oct 2024	42	10	0	52
Nov 2024	29	5	1	35
Dec 2024	46	19	0	65
Jan 2025	61	23	11	95
Feb 2025	62	16	4	82
Mar 2025	26	18	4	48
Apr 2025	28	26	0	54
May 2025	69	22	1	92
Jun 2025	89	41	4	134
Jul 2025	64	42	3	109
Aug 2025	93	31	1	125
Sep 2025	157	52	5	214
Oct 2025	52	33	0	85
Nov 2025	81	76	5	162
Dec 2025	225	54	2	281
Jan 2026	102	67	10	179
Feb 2026	96	55	5	156
Mar 2026	85	126	12	223
Apr 2026	106	119	14	239
May 2026	48	72	6	126
Jun 2026	4	2	1	7

Cumulative views and downloads (calculated since 16 Jan 2023)

Month	HTML	PDF	XML	Total
Jan 2023	131	52	7	190
Feb 2023	67	16	3	86
Mar 2023	32	13	1	46
Apr 2023	30	13	8	51
May 2023	23	6	1	30
Jun 2023	360	59	9	428
Jul 2023	99	11	2	112
Aug 2023	85	13	2	100
Sep 2023	99	17	2	118
Oct 2023	77	7	2	86
Nov 2023	48	19	0	67
Dec 2023	39	14	1	54
Jan 2024	25	9	1	35
Feb 2024	19	11	0	30
Mar 2024	28	20	1	49
Apr 2024	29	10	3	42
May 2024	33	16	4	53
Jun 2024	66	11	5	82
Jul 2024	74	18	9	101
Aug 2024	44	14	8	66
Sep 2024	43	7	0	50
Oct 2024	42	10	0	52
Nov 2024	29	5	1	35
Dec 2024	46	19	0	65
Jan 2025	61	23	11	95
Feb 2025	62	16	4	82
Mar 2025	26	18	4	48
Apr 2025	28	26	0	54
May 2025	69	22	1	92
Jun 2025	89	41	4	134
Jul 2025	64	42	3	109
Aug 2025	93	31	1	125
Sep 2025	157	52	5	214
Oct 2025	52	33	0	85
Nov 2025	81	76	5	162
Dec 2025	225	54	2	281
Jan 2026	102	67	10	179
Feb 2026	96	55	5	156
Mar 2026	85	126	12	223
Apr 2026	106	119	14	239
May 2026	48	72	6	126
Jun 2026	4	2	1	7

Viewed (geographical distribution)

Total article views: 4,439 (including HTML, PDF, and XML) Thereof 4,437 with geography defined and 2 with unknown origin.

Country	#	Views	%

1

1

Cited

Saved (final revised paper)

Latest update: 03 Jun 2026

Download

Article (7908 KB)
Full-text XML

Short summary

This study shows that mineral aerosol (dust) emission events in high-latitude areas are under-represented in both ground- and space-based detecting methods. This is done through a suite of ground-based data to prove that dust emissions from the proglacial area, Lhù’ààn Mân, occur almost daily but are not always recorded at different timescales. Dust has multiple effects on atmospheric processes; therefore, accurate quantification is important in the calibration and validation of climate models.