Hydrodynamic simulation of the effects of stable in-channel large wood on the flood hydrographs of a low mountain range creek, Ore Mountains, Germany

Rasche, Daniel; Reinhardt-Imjela, Christian; Schulte, Achim; Wenzel, Robert

doi:https://doi.org/10.5194/hess-23-4349-2019

Articles | Volume 23, issue 10

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Articles | Volume 23, issue 10

https://doi.org/10.5194/hess-23-4349-2019

Articles | Volume 23, issue 10

Article
Peer review
Metrics
Related articles

Research article

25 Oct 2019

Research article |

| 25 Oct 2019

Hydrodynamic simulation of the effects of stable in-channel large wood on the flood hydrographs of a low mountain range creek, Ore Mountains, Germany

Daniel Rasche, Christian Reinhardt-Imjela, Achim Schulte, and Robert Wenzel

Daniel Rasche

Freie Universität Berlin, Department of Earth Sciences, Institute of Geographical Sciences, Berlin 12249, Germany

GFZ German Research Centre for Geosciences, Section Hydrology, Potsdam 14473, Germany

Christian Reinhardt-Imjela

CORRESPONDING AUTHOR

christian.reinhardt-imjela@fu-berlin.de

https://orcid.org/0000-0002-1951-2503

Freie Universität Berlin, Department of Earth Sciences, Institute of Geographical Sciences, Berlin 12249, Germany

Achim Schulte

Freie Universität Berlin, Department of Earth Sciences, Institute of Geographical Sciences, Berlin 12249, Germany

Robert Wenzel

Freie Universität Berlin, Department of Earth Sciences, Institute of Geographical Sciences, Berlin 12249, Germany

LfU State Office of the Environment Brandenburg, Potsdam 14476, Germany

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Total article views: 4,678 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,946	1,665	67	4,678	67	68

HTML: 2,946
PDF: 1,665
XML: 67
Total: 4,678
BibTeX: 67
EndNote: 68

Views and downloads (calculated since 04 Feb 2019)

Cumulative views and downloads (calculated since 04 Feb 2019)

Total article views: 2,864 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,202	601	61	2,864	59	57

HTML: 2,202
PDF: 601
XML: 61
Total: 2,864
BibTeX: 59
EndNote: 57

Views and downloads (calculated since 25 Oct 2019)

Month	HTML	PDF	XML	Total
Oct 2019	119	28	4	151
Nov 2019	118	31	2	151
Dec 2019	30	11	2	43
Jan 2020	51	16	3	70
Feb 2020	40	5	0	45
Mar 2020	33	6	0	39
Apr 2020	25	7	0	32
May 2020	19	7	2	28
Jun 2020	20	8	2	30
Jul 2020	37	13	2	52
Aug 2020	32	13	2	47
Sep 2020	26	11	0	37
Oct 2020	32	7	0	39
Nov 2020	30	4	0	34
Dec 2020	28	4	0	32
Jan 2021	48	5	0	53
Feb 2021	22	5	0	27
Mar 2021	24	3	0	27
Apr 2021	17	4	0	21
May 2021	20	10	0	30
Jun 2021	13	7	0	20
Jul 2021	17	5	0	22
Aug 2021	16	4	0	20
Sep 2021	17	15	0	32
Oct 2021	10	40	0	50
Nov 2021	20	25	1	46
Dec 2021	29	1	0	30
Jan 2022	32	10	0	42
Feb 2022	29	10	1	40
Mar 2022	32	2	1	35
Apr 2022	32	5	1	38
May 2022	24	8	0	32
Jun 2022	10	1	1	12
Jul 2022	54	3	0	57
Aug 2022	94	8	0	102
Sep 2022	51	4	0	55
Oct 2022	40	4	1	45
Nov 2022	13	7	0	20
Dec 2022	6	3	0	9
Jan 2023	31	31	2	64
Feb 2023	12	7	1	20
Mar 2023	27	8	0	35
Apr 2023	9	5	1	15
May 2023	10	9	1	20
Jun 2023	5	4	0	9
Jul 2023	8	12	3	23
Aug 2023	12	10	1	23
Sep 2023	12	6	0	18
Oct 2023	34	9	2	45
Nov 2023	5	1	0	6
Dec 2023	13	12	1	26
Jan 2024	24	12	0	36
Feb 2024	24	11	0	35
Mar 2024	29	12	2	43
Apr 2024	49	10	3	62
May 2024	48	10	3	61
Jun 2024	79	7	3	89
Jul 2024	35	5	2	42
Aug 2024	73	5	4	82
Sep 2024	39	5	0	44
Oct 2024	44	8	1	53
Nov 2024	37	6	0	43
Dec 2024	40	4	2	46
Jan 2025	53	4	1	58
Feb 2025	46	6	0	52
Mar 2025	44	11	1	56
Apr 2025	36	10	2	48
May 2025	14	1	0	15

Cumulative views and downloads (calculated since 25 Oct 2019)

Month	HTML	PDF	XML	Total
Oct 2019	119	28	4	151
Nov 2019	118	31	2	151
Dec 2019	30	11	2	43
Jan 2020	51	16	3	70
Feb 2020	40	5	0	45
Mar 2020	33	6	0	39
Apr 2020	25	7	0	32
May 2020	19	7	2	28
Jun 2020	20	8	2	30
Jul 2020	37	13	2	52
Aug 2020	32	13	2	47
Sep 2020	26	11	0	37
Oct 2020	32	7	0	39
Nov 2020	30	4	0	34
Dec 2020	28	4	0	32
Jan 2021	48	5	0	53
Feb 2021	22	5	0	27
Mar 2021	24	3	0	27
Apr 2021	17	4	0	21
May 2021	20	10	0	30
Jun 2021	13	7	0	20
Jul 2021	17	5	0	22
Aug 2021	16	4	0	20
Sep 2021	17	15	0	32
Oct 2021	10	40	0	50
Nov 2021	20	25	1	46
Dec 2021	29	1	0	30
Jan 2022	32	10	0	42
Feb 2022	29	10	1	40
Mar 2022	32	2	1	35
Apr 2022	32	5	1	38
May 2022	24	8	0	32
Jun 2022	10	1	1	12
Jul 2022	54	3	0	57
Aug 2022	94	8	0	102
Sep 2022	51	4	0	55
Oct 2022	40	4	1	45
Nov 2022	13	7	0	20
Dec 2022	6	3	0	9
Jan 2023	31	31	2	64
Feb 2023	12	7	1	20
Mar 2023	27	8	0	35
Apr 2023	9	5	1	15
May 2023	10	9	1	20
Jun 2023	5	4	0	9
Jul 2023	8	12	3	23
Aug 2023	12	10	1	23
Sep 2023	12	6	0	18
Oct 2023	34	9	2	45
Nov 2023	5	1	0	6
Dec 2023	13	12	1	26
Jan 2024	24	12	0	36
Feb 2024	24	11	0	35
Mar 2024	29	12	2	43
Apr 2024	49	10	3	62
May 2024	48	10	3	61
Jun 2024	79	7	3	89
Jul 2024	35	5	2	42
Aug 2024	73	5	4	82
Sep 2024	39	5	0	44
Oct 2024	44	8	1	53
Nov 2024	37	6	0	43
Dec 2024	40	4	2	46
Jan 2025	53	4	1	58
Feb 2025	46	6	0	52
Mar 2025	44	11	1	56
Apr 2025	36	10	2	48
May 2025	14	1	0	15

Total article views: 1,814 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
744	1,064	6	1,814	8	11

HTML: 744
PDF: 1,064
XML: 6
Total: 1,814
BibTeX: 8
EndNote: 11

Views and downloads (calculated since 04 Feb 2019)

Month	HTML	PDF	XML	Total
Oct 2019	119	28	4	151
Nov 2019	118	31	2	151
Dec 2019	30	11	2	43
Jan 2020	51	16	3	70
Feb 2020	40	5	0	45
Mar 2020	33	6	0	39
Apr 2020	25	7	0	32
May 2020	19	7	2	28
Jun 2020	20	8	2	30
Jul 2020	37	13	2	52
Aug 2020	32	13	2	47
Sep 2020	26	11	0	37
Oct 2020	32	7	0	39
Nov 2020	30	4	0	34
Dec 2020	28	4	0	32
Jan 2021	48	5	0	53
Feb 2021	22	5	0	27
Mar 2021	24	3	0	27
Apr 2021	17	4	0	21
May 2021	20	10	0	30
Jun 2021	13	7	0	20
Jul 2021	17	5	0	22
Aug 2021	16	4	0	20
Sep 2021	17	15	0	32
Oct 2021	10	40	0	50
Nov 2021	20	25	1	46
Dec 2021	29	1	0	30
Jan 2022	32	10	0	42
Feb 2022	29	10	1	40
Mar 2022	32	2	1	35
Apr 2022	32	5	1	38
May 2022	24	8	0	32
Jun 2022	10	1	1	12
Jul 2022	54	3	0	57
Aug 2022	94	8	0	102
Sep 2022	51	4	0	55
Oct 2022	40	4	1	45
Nov 2022	13	7	0	20
Dec 2022	6	3	0	9
Jan 2023	31	31	2	64
Feb 2023	12	7	1	20
Mar 2023	27	8	0	35
Apr 2023	9	5	1	15
May 2023	10	9	1	20
Jun 2023	5	4	0	9
Jul 2023	8	12	3	23
Aug 2023	12	10	1	23
Sep 2023	12	6	0	18
Oct 2023	34	9	2	45
Nov 2023	5	1	0	6
Dec 2023	13	12	1	26
Jan 2024	24	12	0	36
Feb 2024	24	11	0	35
Mar 2024	29	12	2	43
Apr 2024	49	10	3	62
May 2024	48	10	3	61
Jun 2024	79	7	3	89
Jul 2024	35	5	2	42
Aug 2024	73	5	4	82
Sep 2024	39	5	0	44
Oct 2024	44	8	1	53
Nov 2024	37	6	0	43
Dec 2024	40	4	2	46
Jan 2025	53	4	1	58
Feb 2025	46	6	0	52
Mar 2025	44	11	1	56
Apr 2025	36	10	2	48
May 2025	14	1	0	15

Cumulative views and downloads (calculated since 04 Feb 2019)

Month	HTML	PDF	XML	Total
Oct 2019	119	28	4	151
Nov 2019	118	31	2	151
Dec 2019	30	11	2	43
Jan 2020	51	16	3	70
Feb 2020	40	5	0	45
Mar 2020	33	6	0	39
Apr 2020	25	7	0	32
May 2020	19	7	2	28
Jun 2020	20	8	2	30
Jul 2020	37	13	2	52
Aug 2020	32	13	2	47
Sep 2020	26	11	0	37
Oct 2020	32	7	0	39
Nov 2020	30	4	0	34
Dec 2020	28	4	0	32
Jan 2021	48	5	0	53
Feb 2021	22	5	0	27
Mar 2021	24	3	0	27
Apr 2021	17	4	0	21
May 2021	20	10	0	30
Jun 2021	13	7	0	20
Jul 2021	17	5	0	22
Aug 2021	16	4	0	20
Sep 2021	17	15	0	32
Oct 2021	10	40	0	50
Nov 2021	20	25	1	46
Dec 2021	29	1	0	30
Jan 2022	32	10	0	42
Feb 2022	29	10	1	40
Mar 2022	32	2	1	35
Apr 2022	32	5	1	38
May 2022	24	8	0	32
Jun 2022	10	1	1	12
Jul 2022	54	3	0	57
Aug 2022	94	8	0	102
Sep 2022	51	4	0	55
Oct 2022	40	4	1	45
Nov 2022	13	7	0	20
Dec 2022	6	3	0	9
Jan 2023	31	31	2	64
Feb 2023	12	7	1	20
Mar 2023	27	8	0	35
Apr 2023	9	5	1	15
May 2023	10	9	1	20
Jun 2023	5	4	0	9
Jul 2023	8	12	3	23
Aug 2023	12	10	1	23
Sep 2023	12	6	0	18
Oct 2023	34	9	2	45
Nov 2023	5	1	0	6
Dec 2023	13	12	1	26
Jan 2024	24	12	0	36
Feb 2024	24	11	0	35
Mar 2024	29	12	2	43
Apr 2024	49	10	3	62
May 2024	48	10	3	61
Jun 2024	79	7	3	89
Jul 2024	35	5	2	42
Aug 2024	73	5	4	82
Sep 2024	39	5	0	44
Oct 2024	44	8	1	53
Nov 2024	37	6	0	43
Dec 2024	40	4	2	46
Jan 2025	53	4	1	58
Feb 2025	46	6	0	52
Mar 2025	44	11	1	56
Apr 2025	36	10	2	48
May 2025	14	1	0	15

Viewed (geographical distribution)

Show all Final revised paper only Preprint only

Total article views: 4,678 (including HTML, PDF, and XML) Thereof 3,979 with geography defined and 699 with unknown origin.

Total article views: 2,864 (including HTML, PDF, and XML) Thereof 2,620 with geography defined and 244 with unknown origin.

Total article views: 1,814 (including HTML, PDF, and XML) Thereof 1,359 with geography defined and 455 with unknown origin.

Country	#	Views	%
United States of America	1	1064	22
China	2	798	17
Germany	3	521	11
Russia	4	427	9
Netherlands	5	264	5

Country	#	Views	%
United States of America	1	723	25
China	2	608	21
Germany	3	273	9
Russia	4	222	7
Netherlands	5	164	5

Country	#	Views	%
United States of America	1	341	18
Germany	2	248	13
Russia	3	205	11
China	4	190	10
Netherlands	5	100	5


Total:	0
HTML:	0
PDF:	0
XML:	0

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1064


Total:	0
HTML:	0
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723


Total:	0
HTML:	0
PDF:	0
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341

Cited

Show all Final revised paper only Preprint only

10 citations as recorded by crossref.

An Experimental Investigation of the Hydraulics and Pollutant Dispersion Characteristics of a Model Beaver Dam J. Hart et al. 10.3390/w12092320
Investigation of flow characteristics in open channel with leaky barriers R. Huang et al. 10.1016/j.jhydrol.2022.128328
Modelling the Impact of Leaky Barriers with a 1D Godunov-Type Scheme for the Shallow Water Equations S. Leakey et al. 10.3390/w12020371
Enhancing migratory potential in fish passes: The role of pier shape in minimizing debris accumulation J. Błotnicki et al. 10.1016/j.jenvman.2024.121053
Large wood retention in a large meandering river: Insights from a 5-year monitoring in the Odra River (Czechia) T. Galia et al. 10.1016/j.catena.2023.106973
The influence of large wood on sediment routing and flow characteristics: A study in a low-order stream in the southern brazilian plateau B. Abatti et al. 10.1016/j.geomorph.2024.109398
Hydro-geomorphological modelling of leaky wooden dam efficacy from reach to catchment scale with CAESAR-Lisflood 1.9j J. Wolstenholme et al. 10.5194/gmd-18-1395-2025
Representing natural and artificial in‐channel large wood in numerical hydraulic and hydrological models S. Addy & M. Wilkinson 10.1002/wat2.1389
Physical representation of hillslope leaky barriers in 2D hydraulic models: A case study from the Calder Valley J. Senior et al. 10.1111/jfr3.12821
Identifying bridges prone to instream wood accumulation: insights from bridges across the UK F. Bangnira et al. 10.1007/s11069-023-06174-9

7 citations as recorded by crossref.

An Experimental Investigation of the Hydraulics and Pollutant Dispersion Characteristics of a Model Beaver Dam J. Hart et al. 10.3390/w12092320
Investigation of flow characteristics in open channel with leaky barriers R. Huang et al. 10.1016/j.jhydrol.2022.128328
Modelling the Impact of Leaky Barriers with a 1D Godunov-Type Scheme for the Shallow Water Equations S. Leakey et al. 10.3390/w12020371
Enhancing migratory potential in fish passes: The role of pier shape in minimizing debris accumulation J. Błotnicki et al. 10.1016/j.jenvman.2024.121053
Large wood retention in a large meandering river: Insights from a 5-year monitoring in the Odra River (Czechia) T. Galia et al. 10.1016/j.catena.2023.106973
The influence of large wood on sediment routing and flow characteristics: A study in a low-order stream in the southern brazilian plateau B. Abatti et al. 10.1016/j.geomorph.2024.109398
Hydro-geomorphological modelling of leaky wooden dam efficacy from reach to catchment scale with CAESAR-Lisflood 1.9j J. Wolstenholme et al. 10.5194/gmd-18-1395-2025

3 citations as recorded by crossref.

Representing natural and artificial in‐channel large wood in numerical hydraulic and hydrological models S. Addy & M. Wilkinson 10.1002/wat2.1389
Physical representation of hillslope leaky barriers in 2D hydraulic models: A case study from the Calder Valley J. Senior et al. 10.1111/jfr3.12821
Identifying bridges prone to instream wood accumulation: insights from bridges across the UK F. Bangnira et al. 10.1007/s11069-023-06174-9

Latest update: 09 May 2025

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Short summary

Large woody debris (LWD) is a natural element of mountain streams that has many positive ecological effects. In the present study, we investigate different techniques of incorporating stable in-channel LWD in a hydrodynamic model to simulate its impact on flood hydrographs in a small high-gradient creek. The results indicate the applicability of different integration methods with respect to the simulation scale.

Large woody debris (LWD) is a natural element of mountain streams that has many positive...