Relevance of acoustic methods to quantify bedload transport and bedform dynamics in a large sandy-gravel-bed river
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Published:2021-05-27
Issue:3
Volume:9
Page:423-444
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ISSN:2196-632X
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Container-title:Earth Surface Dynamics
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language:en
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Short-container-title:Earth Surf. Dynam.
Author:
Le Guern Jules,Rodrigues Stéphane,Geay Thomas,Zanker Sébastien,Hauet Alexandre,Tassi Pablo,Claude Nicolas,Jugé Philippe,Duperray Antoine,Vervynck Louis
Abstract
Abstract. Despite the inherent difficulties in quantifying its value, bedload
transport is essential for understanding fluvial systems. In this study, we
assessed different indirect bedload measurement techniques with a reference
direct bedload measurement in a reach of a large sandy-gravel-bed river.
An acoustic Doppler current profiler (aDcp), the dune tracking method (DTM) and hydrophone measurement techniques were used to determine bedload transport rates by using calibration with the reference method or by using empirical formulas. This study is the first work which attempted to use a hydrophone to quantify bedload rates in a large sandy-gravel-bed river. Results show that the hydrophone is the most efficient and accurate method for determining bedload fluxes in the Loire River. Although further work is
needed to identify the parameters controlling self-generated sediment noise, the calibration procedure adopted in this study allows a satisfactory estimation of bedload transport rates. Moreover, aDcp and hydrophone measurement techniques are accurate enough to quantify bedload variations associated with dune migration.
Funder
European Observation Network for Territorial Development and Cohesion Agence de l'eau Loire-Bretagne
Publisher
Copernicus GmbH
Subject
Earth-Surface Processes,Geophysics
Reference81 articles.
1. Banhold, K., Schüttrumpf, H., Hillebrand, G., and Frings, R.:
Underestimation of sand loads during bed-load measurements- a laboratory
examination, in: Proceedings of the international conference on Fluvial
Hydraulics (River Flow 2016), 11–14 July 2016, Saint Louis, USA, 2406 pp.,
2016. 2. Barton, J., Slingerland, R. R. L., Pittman, S., and Gabrielson, T. B.: Monitoring coarse bedload transport with passive acoustic instrumentation: A field study, in: Bedload-surrogate monitoring technologies:, edited by: Gray, J. R., Laronne, J. B., and Marr, J. D. G., US Geol. Surv. Sci. Investig. Rep., 38–51, available at: https://pubs.usgs.gov/sir/2010/5091/papers/Barton.pdf (last access: 25 May 2021), 2010. 3. Batalla, R. J.: Evaluation bed-material transport equations using field
measurements in a sandy gravel-bed stream, Arbùcies River, NE Spain,
Earth Surf. Proc. Land., 22, 121–130, https://doi.org/10.1002/(SICI)1096-9837(199702)22:2<121::AID-ESP671>3.0.CO;2-7, 1997. 4. Bedeus, K. and Ivicsics, L.: Observation of the noise of bed load, in: Gen. Assem. Comm. Hydrom. Int. Assoc. Hydrol. Sci., Berkeley, CA, USA, 19–31,
1963. 5. Bertoldi, W., Ashmore, P., and Tubino, M.: A method for estimating the mean
bed load flux in braided rivers, Geomorphology, 103, 330–340, https://doi.org/10.1016/j.geomorph.2008.06.014, 2009.
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