Considering land cover and land use (LCLU) in lumped parameter modeling in forest dominated karst catchments

•Value of LCLU consideration in lumped parameter modeling of karst spring discharge.•Trade-off assessment between model complexity and performance in karst hydrology.•Considering LCLU have a contradictory influence on hydrological model performance. Lumped parameter modeling approach has been widely...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2022-09, Vol.612, p.128264, Article 128264
Main Authors: Sivelle, V., Jourde, H., Bittner, D., Richieri, B., Labat, D., Hartmann, A., Chiogna, G.
Format: Article
Language:English
Subjects:
Karst hydrology
Land Cover Land Use
Lumped parameter modeling
Recharge
Sciences of the Universe
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Summary:•Value of LCLU consideration in lumped parameter modeling of karst spring discharge.•Trade-off assessment between model complexity and performance in karst hydrology.•Considering LCLU have a contradictory influence on hydrological model performance. Lumped parameter modeling approach has been widely applied in karst hydrology for, among other applications, groundwater availability assessment in a context of global change. Nonetheless, such approach generally does not account for land-cover land-use (LCLU) and its impacts on recharge processes. Then, considering a semi-distributed recharge constitutes a relevant approach to capture the impacts of LCLU on flow dynamics but also introduce more complexity in the modeling approach. The present study consists of a multiple hydrological model calibration to assess the implication of considering a semi-distributed recharge in a lumped parameter model and focuses on the uncertainty originating by the model structure. The modeling results are discussed to evaluate the trade-off between hydrological model complexity and hydrological model performance. The study focuses on forest dominated karst areas with three karst catchments: Kerschbaum (Lower Austria), Baget (French Pyrenees) and Oeillal (southern France). Considering a semi-distributed recharge gives better performance for both Kerschbaum and Oeillal catchments hydrological models, while no improvement is obtained for Baget catchment. Systematic consideration of LCLU is thus not necessarily worthwhile in karst environmen ts as it can bring contradictory results in terms of hydrological model performance.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2022.128264