Dependency of vertical velocity variance on meteorological conditions in the convective boundary layer

Dewani, Noviana; Sakradzija, Mirjana; Schlemmer, Linda; Leinweber, Ronny; Schmidli, Juerg

doi:https://doi.org/10.5194/acp-23-4045-2023

Articles | Volume 23, issue 7

https://doi.org/10.5194/acp-23-4045-2023

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

https://doi.org/10.5194/acp-23-4045-2023

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

Articles | Volume 23, issue 7

Research article

|

05 Apr 2023

Research article |

| 05 Apr 2023

Dependency of vertical velocity variance on meteorological conditions in the convective boundary layer

Noviana Dewani, Mirjana Sakradzija, Linda Schlemmer, Ronny Leinweber, and Juerg Schmidli

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Dec 2022	45	16	2	63
Jan 2023	34	8	0	42
Feb 2023	24	13	1	38
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Apr 2023	241	81	5	327
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Oct 2023	94	27	7	128
Nov 2023	56	16	0	72
Dec 2023	37	19	2	58
Jan 2024	22	10	3	35
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Apr 2024	26	16	4	46
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Jan 2025	29	13	0	42
Feb 2025	21	14	0	35
Mar 2025	28	20	1	49
Apr 2025	18	9	22	49
May 2025	65	7	45	117
Jun 2025	76	46	10	132
Jul 2025	41	23	2	66
Aug 2025	80	17	2	99
Sep 2025	49	26	1	76
Oct 2025	31	25	0	56

Cumulative views and downloads (calculated since 19 Aug 2022)

Month	HTML	PDF	XML	Total
Aug 2022	125	39	4	168
Sep 2022	74	28	2	104
Oct 2022	62	14	2	78
Nov 2022	44	7	0	51
Dec 2022	45	16	2	63
Jan 2023	34	8	0	42
Feb 2023	24	13	1	38
Mar 2023	24	8	0	32
Apr 2023	241	81	5	327
May 2023	85	32	1	118
Jun 2023	72	23	3	98
Jul 2023	71	21	3	95
Aug 2023	91	57	3	151
Sep 2023	77	21	1	99
Oct 2023	94	27	7	128
Nov 2023	56	16	0	72
Dec 2023	37	19	2	58
Jan 2024	22	10	3	35
Feb 2024	34	26	1	61
Mar 2024	33	21	0	54
Apr 2024	26	16	4	46
May 2024	26	13	2	41
Jun 2024	80	12	2	94
Jul 2024	100	10	1	111
Aug 2024	40	23	3	66
Sep 2024	27	7	1	35
Oct 2024	28	13	0	41
Nov 2024	36	12	1	49
Dec 2024	25	12	0	37
Jan 2025	29	13	0	42
Feb 2025	21	14	0	35
Mar 2025	28	20	1	49
Apr 2025	18	9	22	49
May 2025	65	7	45	117
Jun 2025	76	46	10	132
Jul 2025	41	23	2	66
Aug 2025	80	17	2	99
Sep 2025	49	26	1	76
Oct 2025	31	25	0	56

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Short summary

A high daily variability of the normalized vertical velocity variance profiles in the convective boundary layer is observed using Doppler lidar data during the FESSTVaL campaign 2020–2021. The dependency of the normalized vertical velocity variance on several meteorological parameters explains that the moisture processes in the boundary layer contribute to the remaining variability. The finding suggests that a new vertical velocity scale that takes moist processes into account has to be defined.

Dependency of vertical velocity variance on meteorological conditions in the convective boundary layer

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6 citations as recorded by crossref.

6 citations as recorded by crossref.


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