Effective hydraulic properties of 3D virtual stony soils identified by inverse modeling

Naseri, Mahyar; Iden, Sascha C.; Durner, Wolfgang

doi:https://doi.org/10.5194/soil-8-99-2022

Articles | Volume 8, issue 1

https://doi.org/10.5194/soil-8-99-2022

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

https://doi.org/10.5194/soil-8-99-2022

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

Articles | Volume 8, issue 1

Original research article

|

09 Feb 2022

Original research article |

| 09 Feb 2022

Effective hydraulic properties of 3D virtual stony soils identified by inverse modeling

Mahyar Naseri, Sascha C. Iden, and Wolfgang Durner

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XML: 90
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Views and downloads (calculated since 24 Sep 2021)

Month	HTML	PDF	XML	Total
Sep 2021	91	16	3	110
Oct 2021	111	41	7	159
Nov 2021	83	23	5	111
Dec 2021	25	10	2	37
Jan 2022	36	10	1	47
Feb 2022	202	53	7	262
Mar 2022	58	24	1	83
Apr 2022	25	17	2	44
May 2022	37	21	2	60
Jun 2022	31	14	0	45
Jul 2022	15	9	0	24
Aug 2022	15	6	1	22
Sep 2022	27	15	0	42
Oct 2022	28	14	3	45
Nov 2022	44	11	0	55
Dec 2022	9	10	2	21
Jan 2023	15	14	0	29
Feb 2023	27	10	0	37
Mar 2023	19	10	0	29
Apr 2023	12	10	2	24
May 2023	20	13	4	37
Jun 2023	10	13	1	24
Jul 2023	13	11	0	24
Aug 2023	17	10	1	28
Sep 2023	13	15	1	29
Oct 2023	15	7	2	24
Nov 2023	8	6	1	15
Dec 2023	14	10	1	25
Jan 2024	27	12	1	40
Feb 2024	8	16	2	26
Mar 2024	14	19	0	33
Apr 2024	15	8	5	28
May 2024	16	8	1	25
Jun 2024	60	10	12	82
Jul 2024	21	5	2	28
Aug 2024	29	10	2	41
Sep 2024	22	6	3	31
Oct 2024	16	19	3	38
Nov 2024	9	7	1	17
Dec 2024	5	4	0	9
Jan 2025	13	10	0	23
Feb 2025	18	14	0	32
Mar 2025	15	10	1	26
Apr 2025	12	13	2	27
May 2025	25	6	0	31
Jun 2025	56	27	1	84
Jul 2025	19	12	1	32
Aug 2025	33	22	3	58
Sep 2025	84	21	1	106
Oct 2025	14	12	0	26

Cumulative views and downloads (calculated since 24 Sep 2021)

Month	HTML	PDF	XML	Total
Sep 2021	91	16	3	110
Oct 2021	111	41	7	159
Nov 2021	83	23	5	111
Dec 2021	25	10	2	37
Jan 2022	36	10	1	47
Feb 2022	202	53	7	262
Mar 2022	58	24	1	83
Apr 2022	25	17	2	44
May 2022	37	21	2	60
Jun 2022	31	14	0	45
Jul 2022	15	9	0	24
Aug 2022	15	6	1	22
Sep 2022	27	15	0	42
Oct 2022	28	14	3	45
Nov 2022	44	11	0	55
Dec 2022	9	10	2	21
Jan 2023	15	14	0	29
Feb 2023	27	10	0	37
Mar 2023	19	10	0	29
Apr 2023	12	10	2	24
May 2023	20	13	4	37
Jun 2023	10	13	1	24
Jul 2023	13	11	0	24
Aug 2023	17	10	1	28
Sep 2023	13	15	1	29
Oct 2023	15	7	2	24
Nov 2023	8	6	1	15
Dec 2023	14	10	1	25
Jan 2024	27	12	1	40
Feb 2024	8	16	2	26
Mar 2024	14	19	0	33
Apr 2024	15	8	5	28
May 2024	16	8	1	25
Jun 2024	60	10	12	82
Jul 2024	21	5	2	28
Aug 2024	29	10	2	41
Sep 2024	22	6	3	31
Oct 2024	16	19	3	38
Nov 2024	9	7	1	17
Dec 2024	5	4	0	9
Jan 2025	13	10	0	23
Feb 2025	18	14	0	32
Mar 2025	15	10	1	26
Apr 2025	12	13	2	27
May 2025	25	6	0	31
Jun 2025	56	27	1	84
Jul 2025	19	12	1	32
Aug 2025	33	22	3	58
Sep 2025	84	21	1	106
Oct 2025	14	12	0	26

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Short summary

We simulated stony soils with low to high volumes of rock fragments in 3D using evaporation and multistep unit-gradient experiments. Hydraulic properties of virtual stony soils were identified under a wide range of soil matric potentials. The developed models for scaling the hydraulic conductivity of stony soils were evaluated under unsaturated flow conditions.

Effective hydraulic properties of 3D virtual stony soils identified by inverse modeling

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5 citations as recorded by crossref.

5 citations as recorded by crossref.


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