Ten conceptually different models in predicting discharge from the artificial Chicken Creek catchment in North-East Germany were used for this study. Soil texture and topography data were given to the modellers, but discharge data was withheld. We compare the predictions with the measurements from the 6 ha catchment and discuss the conceptualization and parameterization of the models. The predictions vary in a wide range, e.g. with the predicted actual evapotranspiration ranging from 88 to 579 mm/y and the discharge from 19 to 346 mm/y. The predicted components of the hydrological cycle deviated systematically from the observations, which were not known to the modellers. Discharge was mainly predicted as subsurface discharge with little dir...
AbstractStudy regionOur study is focussed on a mesoscale catchment, Selke, in central Germany having...
Rapid population growth has caused an increasing demand for water in both agricultural and industria...
Surface runoff generation on arable fields is an important driver of flooding, on-site and off-site ...
Ten conceptually different models in predicting discharge from the artificial Chicken Creek catchmen...
In practice, the catchment hydrologist is often confronted with the task of predicting discharge wit...
Since the beginning of hydrological research hydrologists have developed models that reflect their p...
We apply the Linear Storage Model (LSM) to simulate the influence of the evapotranspiration on disch...
Hydrological models are designed to represent the interactions between thephysical process and the w...
The need for calibration of conceptual hydrological models on river discharge is still large, and th...
A problem encountered by many distributed hydrological modelling studies is high simulation errors ...
Due to the growing wish and necessity to simulate the possible effects of climate change on the disc...
Study region: Our study is focussed on a mesoscale catchment, Selke, in central Germany having an ar...
Abstract: The first part of this paper compares two algorithms relating daily evaporation to potenti...
Rainfall-runoff modelling in ungauged basins is still one of the greatest challenges in hydrological...
This study used Cropper Creek (located southwest of Myrtleford, Victoria, Australia) data to compare...
AbstractStudy regionOur study is focussed on a mesoscale catchment, Selke, in central Germany having...
Rapid population growth has caused an increasing demand for water in both agricultural and industria...
Surface runoff generation on arable fields is an important driver of flooding, on-site and off-site ...
Ten conceptually different models in predicting discharge from the artificial Chicken Creek catchmen...
In practice, the catchment hydrologist is often confronted with the task of predicting discharge wit...
Since the beginning of hydrological research hydrologists have developed models that reflect their p...
We apply the Linear Storage Model (LSM) to simulate the influence of the evapotranspiration on disch...
Hydrological models are designed to represent the interactions between thephysical process and the w...
The need for calibration of conceptual hydrological models on river discharge is still large, and th...
A problem encountered by many distributed hydrological modelling studies is high simulation errors ...
Due to the growing wish and necessity to simulate the possible effects of climate change on the disc...
Study region: Our study is focussed on a mesoscale catchment, Selke, in central Germany having an ar...
Abstract: The first part of this paper compares two algorithms relating daily evaporation to potenti...
Rainfall-runoff modelling in ungauged basins is still one of the greatest challenges in hydrological...
This study used Cropper Creek (located southwest of Myrtleford, Victoria, Australia) data to compare...
AbstractStudy regionOur study is focussed on a mesoscale catchment, Selke, in central Germany having...
Rapid population growth has caused an increasing demand for water in both agricultural and industria...
Surface runoff generation on arable fields is an important driver of flooding, on-site and off-site ...