Observation of bioaerosol transport using wideband integrated bioaerosol sensor and coherent Doppler lidar

Tang, Dawei; Wei, Tianwen; Yuan, Jinlong; Xia, Haiyun; Dou, Xiankang

doi:10.5194/amt-15-2819-2022

Articles | Volume 15, issue 9

https://doi.org/10.5194/amt-15-2819-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/amt-15-2819-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 15, issue 9

Research article

|

09 May 2022

Research article |

| 09 May 2022

Observation of bioaerosol transport using wideband integrated bioaerosol sensor and coherent Doppler lidar

Dawei Tang, Tianwen Wei, Jinlong Yuan, Haiyun Xia, and Xiankang Dou

Viewed

Total article views: 3,573 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,372	1,108	93	3,573	90	137

HTML: 2,372
PDF: 1,108
XML: 93
Total: 3,573
BibTeX: 90
EndNote: 137

Views and downloads (calculated since 07 Dec 2021)

Month	HTML	PDF	XML	Total
Dec 2021	159	45	3	207
Jan 2022	75	22	5	102
Feb 2022	26	10	0	36
Mar 2022	48	17	5	70
Apr 2022	53	22	1	76
May 2022	177	44	7	228
Jun 2022	81	22	2	105
Jul 2022	63	15	0	78
Aug 2022	64	14	0	78
Sep 2022	75	13	1	89
Oct 2022	54	17	0	71
Nov 2022	50	10	1	61
Dec 2022	35	15	2	52
Jan 2023	43	22	0	65
Feb 2023	18	11	2	31
Mar 2023	15	12	0	27
Apr 2023	29	18	0	47
May 2023	37	22	0	59
Jun 2023	25	14	1	40
Jul 2023	25	9	0	34
Aug 2023	35	12	2	49
Sep 2023	35	28	1	64
Oct 2023	38	25	1	64
Nov 2023	12	9	0	21
Dec 2023	28	29	0	57
Jan 2024	38	20	0	58
Feb 2024	24	16	0	40
Mar 2024	36	35	2	73
Apr 2024	32	12	9	53
May 2024	38	11	4	53
Jun 2024	66	11	2	79
Jul 2024	38	7	5	50
Aug 2024	35	7	2	44
Sep 2024	18	4	1	23
Oct 2024	30	17	1	48
Nov 2024	22	13	1	36
Dec 2024	8	8	1	17
Jan 2025	23	15	0	38
Feb 2025	29	18	0	47
Mar 2025	20	13	0	33
Apr 2025	39	24	2	65
May 2025	33	14	1	48
Jun 2025	59	39	0	98
Jul 2025	44	30	4	78
Aug 2025	51	9	3	63
Sep 2025	58	18	0	76
Oct 2025	41	28	2	71
Nov 2025	71	66	5	142
Dec 2025	48	29	6	83
Jan 2026	76	70	6	152
Feb 2026	77	38	1	116
Mar 2026	18	59	1	78

Cumulative views and downloads (calculated since 07 Dec 2021)

Month	HTML	PDF	XML	Total
Dec 2021	159	45	3	207
Jan 2022	75	22	5	102
Feb 2022	26	10	0	36
Mar 2022	48	17	5	70
Apr 2022	53	22	1	76
May 2022	177	44	7	228
Jun 2022	81	22	2	105
Jul 2022	63	15	0	78
Aug 2022	64	14	0	78
Sep 2022	75	13	1	89
Oct 2022	54	17	0	71
Nov 2022	50	10	1	61
Dec 2022	35	15	2	52
Jan 2023	43	22	0	65
Feb 2023	18	11	2	31
Mar 2023	15	12	0	27
Apr 2023	29	18	0	47
May 2023	37	22	0	59
Jun 2023	25	14	1	40
Jul 2023	25	9	0	34
Aug 2023	35	12	2	49
Sep 2023	35	28	1	64
Oct 2023	38	25	1	64
Nov 2023	12	9	0	21
Dec 2023	28	29	0	57
Jan 2024	38	20	0	58
Feb 2024	24	16	0	40
Mar 2024	36	35	2	73
Apr 2024	32	12	9	53
May 2024	38	11	4	53
Jun 2024	66	11	2	79
Jul 2024	38	7	5	50
Aug 2024	35	7	2	44
Sep 2024	18	4	1	23
Oct 2024	30	17	1	48
Nov 2024	22	13	1	36
Dec 2024	8	8	1	17
Jan 2025	23	15	0	38
Feb 2025	29	18	0	47
Mar 2025	20	13	0	33
Apr 2025	39	24	2	65
May 2025	33	14	1	48
Jun 2025	59	39	0	98
Jul 2025	44	30	4	78
Aug 2025	51	9	3	63
Sep 2025	58	18	0	76
Oct 2025	41	28	2	71
Nov 2025	71	66	5	142
Dec 2025	48	29	6	83
Jan 2026	76	70	6	152
Feb 2026	77	38	1	116
Mar 2026	18	59	1	78

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Total article views: 3,573 (including HTML, PDF, and XML) Thereof 3,496 with geography defined and 77 with unknown origin.

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1

1

Latest update: 08 Mar 2026

Short summary

During 11–20 March 2020, three aerosol transport events were investigated by a lidar system and an online bioaerosol detection system in Hefei, China. Observation results reveal that the events not only contributed to high particulate matter pollution but also to the transport of external bioaerosols, resulting in changes in the fraction of fluorescent biological aerosol particles. This detection method improved the time resolution and provided more parameters for aerosol detection.


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