10.25909/5c762b57507ef David McInerney David McInerney Mark Thyer Mark Thyer Dmitri Kavetski Dmitri Kavetski Supporting data for "Benefits of explicit treatment of zero flows in probabilistic hydrological modelling of ephemeral catchments" by McInerney et al. (2019) The University of Adelaide 2019 Rainfall-runoff modelling Performance metrics uncertainty quantification ephemeral catchments zero flows maximum likelihood Hydrology 2019-02-27 06:16:53 Dataset https://adelaide.figshare.com/articles/dataset/Supporting_data_for_Benefits_of_explicit_treatment_of_zero_flows_in_probabilistic_hydrological_modelling_of_ephemeral_catchments_by_McInerney_et_al_2019_/7775666 <div>This dataset contains results from the paper "Benefits of explicit treatment of zero flows in probabilistic hydrological modelling of ephemeral catchments" by McInerney et al, which is under review at Water Resources Research. </div><div><br></div><div>The folder "metrics" contains performance metrics for the catchments and residual error schemes considered in the case studies, including </div><div>1. The Continuous Ranked Probability Skill Score ('CRPSS.csv')</div><div>2. The error in the proportion of zero flows ('ErrorPropZero.csv')</div><div>3. The precision metric used in this study ('Precision.csv')</div><div>4. The reliability metric used in this study ('Reliability.csv')</div><div>5. The volumetric bias metric used in this study ('VolBias.csv')</div><div>Also, the proportion of observed zero flows for each catchment is provided ('PropZero.csv').<br></div><div><br></div>