On constraining a lumped hydrological model with both piezometry and streamflow: results of a large sample evaluation

Pelletier, Antoine; Andréassian, Vazken

doi:https://doi.org/10.5194/hess-26-2733-2022

Articles | Volume 26, issue 10

https://doi.org/10.5194/hess-26-2733-2022

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

https://doi.org/10.5194/hess-26-2733-2022

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

Articles | Volume 26, issue 10

Research article

|

24 May 2022

Research article |

| 24 May 2022

On constraining a lumped hydrological model with both piezometry and streamflow: results of a large sample evaluation

Antoine Pelletier and Vazken Andréassian

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EndNote: 36

Views and downloads (calculated since 16 Aug 2021)

Month	HTML	PDF	XML	Total
Aug 2021	188	60	4	252
Sep 2021	76	26	2	104
Oct 2021	116	29	6	151
Nov 2021	65	31	1	97
Dec 2021	39	9	1	49
Jan 2022	35	7	0	42
Feb 2022	27	7	0	34
Mar 2022	36	9	1	46
Apr 2022	35	12	0	47
May 2022	211	41	5	257
Jun 2022	150	27	5	182
Jul 2022	39	16	0	55
Aug 2022	76	17	3	96
Sep 2022	45	20	0	65
Oct 2022	29	8	2	39
Nov 2022	55	11	0	66
Dec 2022	44	14	0	58
Jan 2023	39	23	2	64
Feb 2023	25	17	1	43
Mar 2023	22	13	4	39
Apr 2023	17	8	0	25
May 2023	22	16	0	38
Jun 2023	18	16	1	35
Jul 2023	44	21	3	68
Aug 2023	20	22	1	43
Sep 2023	28	15	0	43
Oct 2023	24	14	0	38
Nov 2023	15	8	0	23
Dec 2023	16	6	1	23
Jan 2024	66	11	1	78
Feb 2024	25	20	0	45
Mar 2024	30	30	2	62
Apr 2024	34	11	3	48
May 2024	43	7	3	53
Jun 2024	46	12	2	60
Jul 2024	297	5	4	306
Aug 2024	40	8	3	51
Sep 2024	15	10	0	25
Oct 2024	28	18	1	47
Nov 2024	19	9	1	29
Dec 2024	25	13	2	40
Jan 2025	11	3	0	14

Cumulative views and downloads (calculated since 16 Aug 2021)

Month	HTML	PDF	XML	Total
Aug 2021	188	60	4	252
Sep 2021	76	26	2	104
Oct 2021	116	29	6	151
Nov 2021	65	31	1	97
Dec 2021	39	9	1	49
Jan 2022	35	7	0	42
Feb 2022	27	7	0	34
Mar 2022	36	9	1	46
Apr 2022	35	12	0	47
May 2022	211	41	5	257
Jun 2022	150	27	5	182
Jul 2022	39	16	0	55
Aug 2022	76	17	3	96
Sep 2022	45	20	0	65
Oct 2022	29	8	2	39
Nov 2022	55	11	0	66
Dec 2022	44	14	0	58
Jan 2023	39	23	2	64
Feb 2023	25	17	1	43
Mar 2023	22	13	4	39
Apr 2023	17	8	0	25
May 2023	22	16	0	38
Jun 2023	18	16	1	35
Jul 2023	44	21	3	68
Aug 2023	20	22	1	43
Sep 2023	28	15	0	43
Oct 2023	24	14	0	38
Nov 2023	15	8	0	23
Dec 2023	16	6	1	23
Jan 2024	66	11	1	78
Feb 2024	25	20	0	45
Mar 2024	30	30	2	62
Apr 2024	34	11	3	48
May 2024	43	7	3	53
Jun 2024	46	12	2	60
Jul 2024	297	5	4	306
Aug 2024	40	8	3	51
Sep 2024	15	10	0	25
Oct 2024	28	18	1	47
Nov 2024	19	9	1	29
Dec 2024	25	13	2	40
Jan 2025	11	3	0	14

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Total article views: 2,980 (including HTML, PDF, and XML) Thereof 2,865 with geography defined and 115 with unknown origin.

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1

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Latest update: 21 Jan 2025

Short summary

A large part of the water cycle takes place underground. In many places, the soil stores water during the wet periods and can release it all year long, which is particularly visible when the river level is low. Modelling tools that are used to simulate and forecast the behaviour of the river struggle to represent this. We improved an existing model to take underground water into account using measurements of the soil water content. Results allow us make recommendations for model users.

On constraining a lumped hydrological model with both piezometry and streamflow: results of a large sample evaluation

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7 citations as recorded by crossref.

6 citations as recorded by crossref.

1 citations as recorded by crossref.


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