Detection of land-surface-induced atmospheric water vapor patterns

Marke, Tobias; Löhnert, Ulrich; Schemann, Vera; Schween, Jan H.; Crewell, Susanne

doi:https://doi.org/10.5194/acp-20-1723-2020

Articles | Volume 20, issue 3

Atmos. Chem. Phys., 20, 1723–1736, 2020

https://doi.org/10.5194/acp-20-1723-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Atmos. Chem. Phys., 20, 1723–1736, 2020

https://doi.org/10.5194/acp-20-1723-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 20, issue 3

Research article

12 Feb 2020

Research article | 12 Feb 2020

Detection of land-surface-induced atmospheric water vapor patterns

Tobias Marke et al.

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Nov 2019	8	3	2	13
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Jan 2020	16	5	0	21
Feb 2020	78	20	4	102
Mar 2020	29	12	0	41
Apr 2020	21	13	0	34
May 2020	19	10	1	30
Jun 2020	21	17	1	39
Jul 2020	21	19	3	43
Aug 2020	34	8	1	43
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Oct 2020	21	8	0	29
Nov 2020	10	3	0	13
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Jan 2021	21	8	0	29
Feb 2021	19	7	0	26
Mar 2021	14	7	0	21
Apr 2021	13	9	0	22
May 2021	25	10	1	36
Jun 2021	43	11	0	54
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Aug 2021	27	7	0	34
Sep 2021	41	9	0	50
Oct 2021	23	34	0	57
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Dec 2021	16	8	0	24
Jan 2022	13	6	0	19
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Mar 2022	9	4	0	13
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May 2022	6	4	0	10
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Cumulative views and downloads (calculated since 07 May 2019)

Month	HTML	PDF	XML	Total
May 2019	139	39	4	182
Jun 2019	27	8	0	35
Jul 2019	11	3	0	14
Aug 2019	11	2	0	13
Sep 2019	7	2	1	10
Oct 2019	8	9	1	18
Nov 2019	8	3	2	13
Dec 2019	4	6	0	10
Jan 2020	16	5	0	21
Feb 2020	78	20	4	102
Mar 2020	29	12	0	41
Apr 2020	21	13	0	34
May 2020	19	10	1	30
Jun 2020	21	17	1	39
Jul 2020	21	19	3	43
Aug 2020	34	8	1	43
Sep 2020	15	7	0	22
Oct 2020	21	8	0	29
Nov 2020	10	3	0	13
Dec 2020	17	7	0	24
Jan 2021	21	8	0	29
Feb 2021	19	7	0	26
Mar 2021	14	7	0	21
Apr 2021	13	9	0	22
May 2021	25	10	1	36
Jun 2021	43	11	0	54
Jul 2021	46	14	0	60
Aug 2021	27	7	0	34
Sep 2021	41	9	0	50
Oct 2021	23	34	0	57
Nov 2021	22	30	1	53
Dec 2021	16	8	0	24
Jan 2022	13	6	0	19
Feb 2022	9	6	1	16
Mar 2022	9	4	0	13
Apr 2022	9	3	1	13
May 2022	6	4	0	10
Jun 2022	8	3	0	11

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Short summary

In this study, land surface and atmosphere interactions are addressed using ground-based remote sensing, satellite products, and high-resolution large-eddy simulations. The focus is on water vapor transport from the surface into the atmosphere. Patterns found in long-term observations can be linked to properties of the surrounding land surface. The simulation results suggest that a different distribution of land use types has implications for boundary layer characteristics and clouds.

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Detection of land-surface-induced atmospheric water vapor patterns

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