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Can Continental Models Convey Useful Seasonal Hydrologic Information at the Catchment Scale?

Louise Crochemore, Maria‐Helena Ramos, Ilias Pechlivanidis

2020Water Resources Research58 citationsDOIOpen Access PDF

Abstract

Abstract The development and availability of climate forecasting systems have allowed the implementation of seasonal hydroclimatic services at the continental scale. User guidance and quality of the forecast information are key components to ensure user engagement and service uptake, yet forecast quality depends on the hydrologic model setup. Here, we address how seasonal forecasts from continental services can be used to address user needs at the catchment scale. We compare a continentally calibrated process‐based model (E‐HYPE) and a catchment‐specific parsimonious model (GR6J) to forecast streamflow in a set of French catchments. Results show that despite expected high performance from the catchment setup against observed streamflow, the continental setup can, in some catchments, match or even outperform the catchment‐specific setup for 3‐month aggregations and threshold exceedance. Forecast systems can become comparable when looking at statistics relative to model climatology, such as anomalies, and adequate initial conditions are the main source of skill in both systems. We highlight the need for consistency in data used in modeling chains and in tailoring service outputs for use at the catchment scale. Finally, we show that the spread in internal model states varies largely between the two systems, reflecting the differences in their setups and calibration strategies, and highlighting that caution is needed before extracting hydrologic variables other than streamflow. We overall argue that continental hydroclimatic services show potential on addressing needs at the catchment scale, yet guidance is needed to extract, tailor and use the information provided.

Topics & Concepts

StreamflowScale (ratio)Drainage basinEnvironmental scienceHydrological modellingClimate changeService (business)Computer scienceConsistency (knowledge bases)Catchment hydrologyEnvironmental resource managementMeteorologyClimatologyGeographyGeologyBusinessMarketingArtificial intelligenceOceanographyCartographyHydrology and Watershed Management StudiesClimate variability and modelsHydrology and Drought Analysis