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Stage‐discharge rating curves based on satellite altimetry and modeled discharge in the Amazon basin

Authors :
Paris, Adrien
Dias de Paiva, Rodrigo
Santos da Silva, Joecila
Medeiros Moreira, Daniel
Calmant, Stephane
Garambois, Pierre‐André
Collischonn, Walter
Bonnet, Marie‐Paule
Seyler, Frederique
Source :
Water Resources Research; May 2016, Vol. 52 Issue: 5 p3787-3814, 28p
Publication Year :
2016

Abstract

In this study, rating curves (RCs) were determined by applying satellite altimetry to a poorly gauged basin. This study demonstrates the synergistic application of remote sensing and watershed modeling to capture the dynamics and quantity of flow in the Amazon River Basin, respectively. Three major advancements for estimating basin‐scale patterns in river discharge are described. The first advancement is the preservation of the hydrological meanings of the parameters expressed by Manning's equation to obtain a data set containing the elevations of the river beds throughout the basin. The second advancement is the provision of parameter uncertainties and, therefore, the uncertainties in the rated discharge. The third advancement concerns estimating the discharge while considering backwater effects. We analyzed the Amazon Basin using nearly one thousand series that were obtained from ENVISAT and Jason‐2 altimetry for more than 100 tributaries. Discharge values and related uncertainties were obtained from the rain‐discharge MGB‐IPH model. We used a global optimization algorithm based on the Monte Carlo Markov Chain and Bayesian framework to determine the rating curves. The data were randomly allocated into 80% calibration and 20% validation subsets. A comparison with the validation samples produced a Nash‐Sutcliffe efficiency ( Ens) of 0.68. When the MGB discharge uncertainties were less than 5%, the Ensvalue increased to 0.81 (mean). A comparison with the in situ discharge resulted in an Ensvalue of 0.71 for the validation samples (and 0.77 for calibration). The Ensvalues at the mouths of the rivers that experienced backwater effects significantly improved when the mean monthly slope was included in the RC. Our RCs were not mission‐dependent, and the Ensvalue was preserved when applying ENVISAT rating curves to Jason‐2 altimetry at crossovers. The cease‐to‐flow parameter of our RCs provided a good proxy for determining river bed elevation. This proxy was validated against Acoustic Doppler current profiler (ADCP) cross sections with an accuracy of more than 90%. Altimetry measurements are routinely delivered within a few days, and this RC data set provides a simple and cost‐effective tool for predicting discharge throughout the basin in nearly real time. Discharge can be obtained in near‐real‐time from altimetry and rating curveIncluding slope in rating curve allows adequate estimate of discharge in backwater conditionsRating curve parameters provide meaningful information on rivers characteristics

Details

Language :
English
ISSN :
00431397
Volume :
52
Issue :
5
Database :
Supplemental Index
Journal :
Water Resources Research
Publication Type :
Periodical
Accession number :
ejs42416197
Full Text :
https://doi.org/10.1002/2014WR016618