Comparison of artificial neural networks and reservoir models for simulating karst spring discharge on five test sites in the Alpine and Mediterranean regions

Cinkus, Guillaume; Wünsch, Andreas; Mazzilli, Naomi; Liesch, Tanja; Chen, Zhao; Ravbar, Nataša; Doummar, Joanna; Fernández-Ortega, Jaime; Barberá, Juan Antonio; Andreo, Bartolomé; Goldscheider, Nico; Jourde, Hervé

doi:10.5194/hess-2022-365

Cited by 3 publications

(2 citation statements)

References 63 publications

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“…Nonetheless, the characterization methods for the data acquisition and/or interpretation techniques in karst aquifers is rather appropriate for the continuum (Darcy) scale applications where the effective parameters can be readily used for the entire model domain (e.g., Faulkner et al, 2009;Huntoon, 1995;Kresic & Stevanovic, 2009;Zhang et al, 2021). For this reason, when the direct measurements of transport parameters (i.e., dispersivity, mass transfer coefficient) are not practical and/or their values might not be representative in resembling the process of interest, model parameters are frequently estimated manuscript submitted to Review of Geophysics via model calibration (e.g., Bittner et al, 2020;Cinkus et al, 2023;Dewaide et al, 2016;Sivelle et al, 2023;Çallı et al, 2023a).…”

Section: Model Parameterization In Karst Transport Modelsmentioning

confidence: 99%

Karst water resources in a changing world: Review of solute transport modelling approaches

Çallı,

Chiogna,

Bittner

et al. 2024

Preprint

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Karst water resources are valuable freshwater sources for around 10 % of the world population. Nonetheless, anthropogenic factors and global changes have been seriously deteriorating the karst water quality and dependent ecosystems. Solute transport models are powerful tools to monitor, control, and manage the water quality and dependent ecosystem functioning. By representing and predicting the spatiotemporal behavior of solute migration in karst systems, the transport models enhance our understanding about the karst transport processes, thus enabling us to explore contamination risks and potential outcomes. This paper reviews the current state of knowledge on the modelling of solute transport processes in karst aquifers, thereby unveiling the fundamental challenges underlying a successful karst transport modelling. We discuss to what extent and in what ways we can handle these challenges and derive the key challenges and directions for reliable modelling of transport processes in karst systems in the present context of global changes.

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Section: Model Parameterization In Karst Transport Modelsmentioning

confidence: 99%

Karst water resources in a changing world: Review of solute transport modelling approaches

Çallı,

Chiogna,

Bittner

et al. 2024

Preprint

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“…KarstMod allows using either observation-based precipitation time series P [L.T -1 ] or estimated precipitation time series P sr [L.T -1 ] using a snow routine. The latter is similar to the one used by Chen et al (2018) -without the radiation components -which has been successfully used for improving the simulation of karst spring discharge in snow-covered karst systems (Chen et al, 2018;Cinkus et al, 2022b). It consists of a modified HBV-snow routine (Bergström, 1992) for simulating snow accumulation and melt over different sub-catchments based on altitude ranges (appendix A).…”

Section: Snow Routinementioning

confidence: 99%

Improvement of the KarstMod modeling platform for a better assessment of karst groundwater resources

Sivelle

Cinkus

Mazzilli

et al. 2023

Preprint

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Abstract. We propose an updated version of KarstMod, an adjustable platform dedicated to lumped parameter rainfall-discharge modeling of karst aquifers. KarstMod provides a modular, user-friendly modeling environment for educational, research and operational purposes. It also includes numerical tools for time series analysis, model evaluation and sensitivity analysis. The modularity of the platform facilitates common operations related to lumped parameter rainfall-discharge modeling, such as (i) set up and parameter estimation of a relevant model structure, and (ii) evaluation of internal consistency, parameter sensitivity and hydrograph characteristics. The updated version now includes (i) external routines to better consider the input data and their related uncertainties, i.e. evapotranspiration and solid precipitation, (ii) enlargement of multi-objective calibration possibilities, allowing more flexibility in terms of objective functions as well as observation type and (iii) additional tools for model performance evaluation including further performance criteria and tools for model errors representation.

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Hybrid modeling of karstic springs: Error correction of conceptual reservoir models with machine learning

Bouhafa,

Sakarovitch,

Lalague

et al. 2024

Water Supply

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The simulation of spring discharge is of high interest for water supply management. Accurate modeling and prediction of spring discharge can help water authorities and managers optimize water use, face seasonal variability, and prepare for possible drought conditions. Therefore, developing reliable simulation models and forecasting tools for spring discharge is essential for the effective management of groundwater resources relying on karstic springs. While the use of complementary modeling approaches has been explored in various hydrological contexts, its application to spring discharge modeling remains relatively unexplored. Previous studies on spring discharge modeling have predominantly focused on either conceptual/distributed models or data-driven models separately, without fully investigating the potential advantages of combining these two approaches. Consequently, there is a research gap in understanding the potential benefits and effectiveness of integrating these models for spring discharge modeling. This study developed and evaluated a hybrid modeling approach integrating a conceptual hydrological model with a machine learning technique to simulate spring discharge from the largest karst aquifer supplying the city of Bordeaux, France. Specifically, the study combined the five-parameter GR5J reservoir model with a random forests data-driven model in a hybrid framework. Model performance was assessed through comparison with….

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Comparison of artificial neural networks and reservoir models for simulating karst spring discharge on five test sites in the Alpine and Mediterranean regions

Cited by 3 publications

References 63 publications

Karst water resources in a changing world: Review of solute transport modelling approaches

Karst water resources in a changing world: Review of solute transport modelling approaches

Improvement of the KarstMod modeling platform for a better assessment of karst groundwater resources

Hybrid modeling of karstic springs: Error correction of conceptual reservoir models with machine learning

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