L.B. Ehlers scite author profile

L.B. Ehlers

4Publications

29Citation Statements Received

100Citation Statements Given

How they've been cited

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181

Affiliations

Geological Survey of Denmark and Greenland, Kiel University, Forschungszentrum Jülich

Publications

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Observational and predictive uncertainties for multiple variables in a spatially distributed hydrological model

Ehlers

Sonnenborg

Refsgaard

2019

Hydrological Processes

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In this study, uncertainty in model input data (precipitation) and parameters is propagated through a physically based, spatially distributed hydrological model based on the MIKE SHE code. Precipitation uncertainty is accounted for using an ensemble of daily rainfall fields that incorporate four different sources of uncertainty, whereas parameter uncertainty is considered using Latin hypercube sampling. Model predictive uncertainty is assessed for multiple simulated hydrological variables (discharge, groundwater head, evapotranspiration, and soil moisture). Utilizing an extensive set of observational data, effective observational uncertainties for each hydrological variable are assessed. Considering not only model predictive uncertainty but also effective observational uncertainty leads to a notable increase in the number of instances, for which model simulation and observations are in good agreement (e.g., 47% vs. 91% for discharge and 0% vs. 98% for soil moisture). Effective observational uncertainty is in several cases larger than model predictive uncertainty. We conclude that the use of precipitation uncertainty with a realistic spatio‐temporal correlation structure, analyses of multiple variables with different spatial support, and the consideration of observational uncertainty are crucial for adequately evaluating the performance of physically based, spatially distributed hydrological models.

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Using a simple post-processor to predict residual uncertainty for multiple hydrological model outputs

Ehlers

Wani

Koch

et al. 2019

Advances in Water Resources

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Sensitivity of mGROWA-simulated groundwater recharge to changes in soil and land use parameters in a Mediterranean environment and conclusions in view of ensemble-based climate impact simulations

Ehlers

Herrmann

Blaschek

et al. 2016

Science of The Total Environment

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Joint treatment of point measurement, sampling and neighborhood uncertainty in space-time rainfall mapping

Ehlers

Sonnenborg

Heuvelink

et al. 2019

Journal of Hydrology

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L.B. Ehlers

Observational and predictive uncertainties for multiple variables in a spatially distributed hydrological model

Using a simple post-processor to predict residual uncertainty for multiple hydrological model outputs

Sensitivity of mGROWA-simulated groundwater recharge to changes in soil and land use parameters in a Mediterranean environment and conclusions in view of ensemble-based climate impact simulations

Joint treatment of point measurement, sampling and neighborhood uncertainty in space-time rainfall mapping

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