Potential Legacy of SWOT Mission for the Estimation of Flow–Duration Curves

Alessio Domeneghetti; Serena Ceola; Alessio Pugliese; Simone Persiano; Irene Palazzoli; Attilio Castellarin; Alberto Marinelli; Armando Brath

doi:10.3390/rs16142607

Remote Sensing (Jul 2024)

Potential Legacy of SWOT Mission for the Estimation of Flow–Duration Curves

Alessio Domeneghetti,
Serena Ceola,
Alessio Pugliese,
Simone Persiano,
Irene Palazzoli,
Attilio Castellarin,
Alberto Marinelli,
Armando Brath

Affiliations

Alessio Domeneghetti: Department of Civil, Chemical, Environmental and Materials Engineering, Alma Mater Studiorum Università di Bologna, 40136 Bologna, Italy
Serena Ceola: Department of Civil, Chemical, Environmental and Materials Engineering, Alma Mater Studiorum Università di Bologna, 40136 Bologna, Italy
Alessio Pugliese: Arpae-SIMC, Hydro-Meteo-Climate Service of the Regional Agency for Prevention, Environment and Energy (ARPAE), 43125 Parma, Italy
Simone Persiano: Catastrophe Risk Modeling & Mitigation, UnipolSai Assicurazioni S.p.A., Piazza Della Costituzione 2/2, 40128 Bologna, Italy
Irene Palazzoli: Department of Civil, Chemical, Environmental and Materials Engineering, Alma Mater Studiorum Università di Bologna, 40136 Bologna, Italy
Attilio Castellarin: Department of Civil, Chemical, Environmental and Materials Engineering, Alma Mater Studiorum Università di Bologna, 40136 Bologna, Italy
Alberto Marinelli: Department of Civil, Chemical, Environmental and Materials Engineering, Alma Mater Studiorum Università di Bologna, 40136 Bologna, Italy
Armando Brath: Department of Civil, Chemical, Environmental and Materials Engineering, Alma Mater Studiorum Università di Bologna, 40136 Bologna, Italy

DOI: https://doi.org/10.3390/rs16142607
Journal volume & issue: Vol. 16, no. 14
p. 2607

Abstract

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Flow–duration curves (FDCs) provide a compact view of the historical variability of river flows, reflecting climate conditions and the main hydrologic features of river basins. The Surface Water and Ocean Topography (SWOT) satellite mission will enable the estimation of river flows globally, by sensing rivers wider than 100 m with a sampling recurrence from 3 to 21 days. This study investigated the lifetime mission potential for FDC estimation through the comparison between remotely-sensed and empirical FDCs. We employed the Global Runoff Data Center dataset and derived SWOT-like river flows by selecting gauging stations of rivers wider than 100 m with more than 10-year long daily river flow time series. Overall, 1200 gauged river cross-sections were examined. For each site, we created a set of 24 SWOT-simulated FDCs (i.e., based on different sampling recurrences, mean biases, and random errors) to be compared against their empirical counterparts through the Nash–Sutcliffe efficiency and the mean relative error. Our results show that climate and the sampling recurrence play a key role on the performance of SWOT-based FDCs. Tropical and temperate climates performed the best, whereas arid climates mostly revealed higher uncertainties, especially for high- and low-flows.

Published in Remote Sensing

ISSN: 2072-4292 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science
Website: http://www.mdpi.com/journal/remotesensing/

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