River Discharge Simulation in the High Andes of Southern Ecuador Using High-Resolution Radar Observations and Meteorological Station Data

Autor:	Ricardo Félix, Patricio Crespo, Juan Arteaga, Diego Mejía-Veintimilla, Andreas Fries, Fernando Oñate-Valdivieso, Natalia Samaniego-Rojas, Pablo Ochoa-Cueva
Jazyk:	angličtina
Rok vydání:	2019
Předmět:	010504 meteorology & atmospheric sciences Meteorology Rain gauge Discharge Hydrological modelling 0207 environmental engineering 02 engineering and technology 01 natural sciences hydrological modelling meteorological radar RPM HEC-HMS Andes Radar imaging Flash flood General Earth and Planetary Sciences Environmental science Precipitation 020701 environmental engineering Surface runoff 0105 earth and related environmental sciences
Zdroj:	Remote Sensing; Volume 11; Issue 23; Pages: 2804
ISSN:	2072-4292
DOI:	10.3390/rs11232804
Popis:	The prediction of river discharge using hydrological models (HMs) is of utmost importance, especially in basins that provide drinking water or serve as recreation areas, to mitigate damage to civil structures and to prevent the loss of human lives. Therefore, different HMs must be tested to determine their accuracy and usefulness as early warning tools, especially for extreme precipitation events. This study simulated the river discharge in an Andean watershed, for which the distributed HM Runoff Prediction Model (RPM) and the semi-distributed HM Hydrologic Modelling System (HEC-HMS) were applied. As precipitation input data for the RPM model, high-resolution radar observations were used, whereas the HEC-HMS model used the available meteorological station data. The obtained simulations were compared to measured discharges at the outlet of the watershed. The results highlighted the advantages of distributed HM (RPM) in combination with high-resolution radar images, which estimated accurately the discharges in magnitude and time. The statistical analysis showed good to very good accordance between observed and simulated discharge for the RPM model (R2: 0.85–0.92; NSE: 0.77–0.82), whereas for the HEC-HMS model accuracies were lower (R2: 0.68–0.86; NSE: 0.26–0.78). This was not only due to the application of means values for the watershed (HEC-HMS), but also to limited rain gauge information. Generally, station network density in tropical mountain regions is poor, for which reason the high spatiotemporal precipitation variability cannot be detected. For hydrological simulation and forecasting flash floods, as well as for environmental investigations and water resource management, meteorological radars are the better choice. The greater availability of cost-effective systems at the present time also reduces implementation and maintenance costs of dense meteorological station networks.
Databáze:	OpenAIRE
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