Understanding hydrological model predictive capabilities under contrasting climate conditions enables more robust decision making. Using Differential Split Sample Testing (DSST), we analyze the performance of six hydrological models for 37 Irish catchments under climate conditions unlike those used for model training. Additionally, we consider four ensemble averaging techniques when examining interperiod transferability. DSST is conducted using 2/3 year noncontinuous blocks of (i) the wettest/driest years on record based on precipitation totals and (ii) years with a more/less pronounced seasonal precipitation regime. Model transferability between contrasting regimes was found to vary depending on the testing scenario, catchment, and evaluat...
Nine distributed hydrological models, forced with common meteorological inputs, simulated naturalise...
Conceptual rainfall-runoff models are increasingly being proposed as important tools for water resou...
In accounting for uncertainties in future simulations of hydrological response of a catchment, two a...
Understanding hydrological model predictive capabilities under contrasting climate conditions enabl...
AbstractStudy regionTwenty diversified U.S. watersheds.Study focusIdentifying optimal parameter sets...
[1] This paper investigates the actual extrapolation capacity of three hydrological models in differ...
Study region: Twenty diversified U.S. watersheds. Study focus: Identifying optimal parameter sets fo...
This study attempts to assess the uncertainty in the hydrological impacts of climate change using a ...
Conceptual hydrological models are widely used for climate change impact assessment. The implicit a...
This study proposes a general differential split-sample test (GDSST) based on an oriented bootstrap ...
This study investigated the strength and limitations of two widely used multi-model averaging framew...
The ability of hydrological models to perform in climatic conditions different from those encountere...
It has been repeatedly shown that conceptual hydrologic model performance degrades under conditions ...
Future runoff projections derived from different global climate models (GCMs) show large differences...
A changing climate can severely perturb regional hydrology and thereby affect human societies and li...
Nine distributed hydrological models, forced with common meteorological inputs, simulated naturalise...
Conceptual rainfall-runoff models are increasingly being proposed as important tools for water resou...
In accounting for uncertainties in future simulations of hydrological response of a catchment, two a...
Understanding hydrological model predictive capabilities under contrasting climate conditions enabl...
AbstractStudy regionTwenty diversified U.S. watersheds.Study focusIdentifying optimal parameter sets...
[1] This paper investigates the actual extrapolation capacity of three hydrological models in differ...
Study region: Twenty diversified U.S. watersheds. Study focus: Identifying optimal parameter sets fo...
This study attempts to assess the uncertainty in the hydrological impacts of climate change using a ...
Conceptual hydrological models are widely used for climate change impact assessment. The implicit a...
This study proposes a general differential split-sample test (GDSST) based on an oriented bootstrap ...
This study investigated the strength and limitations of two widely used multi-model averaging framew...
The ability of hydrological models to perform in climatic conditions different from those encountere...
It has been repeatedly shown that conceptual hydrologic model performance degrades under conditions ...
Future runoff projections derived from different global climate models (GCMs) show large differences...
A changing climate can severely perturb regional hydrology and thereby affect human societies and li...
Nine distributed hydrological models, forced with common meteorological inputs, simulated naturalise...
Conceptual rainfall-runoff models are increasingly being proposed as important tools for water resou...
In accounting for uncertainties in future simulations of hydrological response of a catchment, two a...