Improving the hydrological consistency of a process-based  solute-transport model by simultaneous calibration  of streamflow and stream concentrations

Salmon-Monviola, Jordy; Fovet, Ophélie; Hrachowitz, Markus

doi:10.5194/hess-29-127-2025

Articles | Volume 29, issue 1

https://doi.org/10.5194/hess-29-127-2025

© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/hess-29-127-2025

© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 29, issue 1

Research article

|

14 Jan 2025

Research article |

| 14 Jan 2025

Improving the hydrological consistency of a process-based solute-transport model by simultaneous calibration of streamflow and stream concentrations

Jordy Salmon-Monviola, Ophélie Fovet, and Markus Hrachowitz

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Jan 2024	165	48	6	219
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Mar 2024	40	32	6	78
Apr 2024	54	13	12	79
May 2024	31	24	3	58
Jun 2024	30	11	4	45
Jul 2024	21	5	2	28
Aug 2024	10	4	1	15
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Oct 2024	7	3	0	10
Nov 2024	16	4	0	20
Dec 2024	12	8	0	20
Jan 2025	172	41	5	218
Feb 2025	74	23	0	97
Mar 2025	52	12	2	66
Apr 2025	58	15	4	77
May 2025	61	16	0	77
Jun 2025	89	44	3	136
Jul 2025	52	35	2	89
Aug 2025	79	23	2	104
Sep 2025	203	21	1	225
Oct 2025	60	32	2	94
Nov 2025	58	56	3	117
Dec 2025	90	79	7	176
Jan 2026	102	77	21	200
Feb 2026	156	33	10	199
Mar 2026	127	109	8	244
Apr 2026	156	145	6	307
May 2026	95	58	1	154
Jun 2026	15	8	0	23

Cumulative views and downloads (calculated since 05 Jan 2024)

Month	HTML	PDF	XML	Total
Jan 2024	165	48	6	219
Feb 2024	47	18	4	69
Mar 2024	40	32	6	78
Apr 2024	54	13	12	79
May 2024	31	24	3	58
Jun 2024	30	11	4	45
Jul 2024	21	5	2	28
Aug 2024	10	4	1	15
Sep 2024	14	7	0	21
Oct 2024	7	3	0	10
Nov 2024	16	4	0	20
Dec 2024	12	8	0	20
Jan 2025	172	41	5	218
Feb 2025	74	23	0	97
Mar 2025	52	12	2	66
Apr 2025	58	15	4	77
May 2025	61	16	0	77
Jun 2025	89	44	3	136
Jul 2025	52	35	2	89
Aug 2025	79	23	2	104
Sep 2025	203	21	1	225
Oct 2025	60	32	2	94
Nov 2025	58	56	3	117
Dec 2025	90	79	7	176
Jan 2026	102	77	21	200
Feb 2026	156	33	10	199
Mar 2026	127	109	8	244
Apr 2026	156	145	6	307
May 2026	95	58	1	154
Jun 2026	15	8	0	23

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Short summary

To increase the predictive power of hydrological models, it is necessary to improve their consistency, i.e. their physical realism, which is measured by the ability of the model to reproduce observed system dynamics. Using a model to represent the dynamics of water and nitrate and dissolved organic carbon concentrations in an agricultural catchment, we showed that using solute-concentration data for calibration is useful to improve the hydrological consistency of the model.