Litcius/Paper detail

Performing Hydrological Monitoring at a National Scale by Exploiting Rain-Gauge and Radar Networks: The Italian Case

Giulia Bruno, Flavio Pignone, Francesco Silvestro, Simone Gabellani, Federico Schiavi, Nicola Rebora, Pietro Giordano, Marco Falzacappa

2021Atmosphere58 citationsDOIOpen Access PDF

Abstract

Hydrological monitoring systems relying on radar data and distributed hydrological models are now feasible at large-scale and represent effective early warning systems for flash floods. Here we describe a system that allows hydrological occurrences in terms of streamflow at a national scale to be monitored. We then evaluate its operational application in Italy, a country characterized by various climatic conditions and topographic features. The proposed system exploits a modified conditional merging (MCM) algorithm to generate rainfall estimates by blending data from national radar and rain-gauge networks. Then, we use the merged rainfall fields as input for the distributed and continuous hydrological model, Continuum, to obtain real-time streamflow predictions. We assess its performance in terms of rainfall estimates from MCM, using cross-validation and comparison with a conditional merging technique at an event-scale. We also assess its performance against rainfall fields from ground-based data at catchment-scale. We further evaluate the performance of the hydrological system in terms of streamflow against observed data (relative error on high flows less than 25% and Nash–Sutcliffe Efficiency greater than 0.5 for 72% and 46% of the calibrated study sections, respectively). These results, therefore, confirm the suitability of such an approach, even at national scale, over a wide range of catchment types, climates, and hydrometeorological regimes, and for operational purposes.

Topics & Concepts

HydrometeorologyRain gaugeStreamflowEnvironmental scienceScale (ratio)MeteorologyFlash floodRadarWarning systemHydrological modellingRange (aeronautics)Weather radarClimatologyComputer scienceDrainage basinPrecipitationGeographyGeologyCartographyArchaeologyComposite materialFlood mythMaterials scienceTelecommunicationsHydrology and Watershed Management StudiesFlood Risk Assessment and ManagementHydrological Forecasting Using AI