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Extreme flood-driven fluvial bank erosion and sediment loads: direct process measurements using integrated Mobile Laser Scanning (MLS) and hydro-acoustic techniques

Extreme flood-driven fluvial bank erosion and sediment loads: direct process measurements using integrated Mobile Laser Scanning (MLS) and hydro-acoustic techniques
Extreme flood-driven fluvial bank erosion and sediment loads: direct process measurements using integrated Mobile Laser Scanning (MLS) and hydro-acoustic techniques
This methods paper details the first attempt at monitoring bank erosion, flow and suspended sediment at a site during flooding on the Mekong River induced by the passage of tropical cyclones. We deployed integrated Mobile Laser Scanning (MLS) and Multibeam Echo Sounding (MBES), alongside acoustic Doppler current profiling (aDcp), to directly measure changes in river bank and bed at high (~0.05 m) spatial resolution, in conjunction with measurements of flow and suspended sediment dynamics. We outline the methodological steps used to collect and process this complex point cloud data, and detail the procedures used to process and calibrate the aDcp flow and sediment flux data. A comparison with conventional remote sensing methods of estimating bank erosion, using aerial images and Landsat imagery, reveals that traditional techniques are error prone at the high temporal resolutions required to quantify the patterns and volumes of bank erosion induced by the passage of individual flood events. Our analysis reveals the importance of cyclone-driven flood events in causing high rates of erosion and suspended sediment transport, with a c. twofold increase in bank erosion volumes and a fourfold increase in suspended sediment volumes in the cyclone-affected wet season.
0197-9337
334-346
Leyland, Julian
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Hackney, Christopher
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Darby, Stephen
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Parsons, Daniel
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Best, James
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Nicholas, Andrew
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Aalto, Rolf
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Lague, Dimitri
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Leyland, Julian
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Hackney, Christopher
bc99c3e8-243c-4933-9346-46c707e36e0b
Darby, Stephen
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Parsons, Daniel
0c3761b8-053f-42b1-91c1-268f9eef1ae8
Best, James
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Nicholas, Andrew
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Aalto, Rolf
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Lague, Dimitri
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Leyland, Julian, Hackney, Christopher, Darby, Stephen, Parsons, Daniel, Best, James, Nicholas, Andrew, Aalto, Rolf and Lague, Dimitri (2017) Extreme flood-driven fluvial bank erosion and sediment loads: direct process measurements using integrated Mobile Laser Scanning (MLS) and hydro-acoustic techniques. Earth Surface Processes and Landforms, 42 (2), 334-346. (doi:10.1002/esp.4078).

Record type: Article

Abstract

This methods paper details the first attempt at monitoring bank erosion, flow and suspended sediment at a site during flooding on the Mekong River induced by the passage of tropical cyclones. We deployed integrated Mobile Laser Scanning (MLS) and Multibeam Echo Sounding (MBES), alongside acoustic Doppler current profiling (aDcp), to directly measure changes in river bank and bed at high (~0.05 m) spatial resolution, in conjunction with measurements of flow and suspended sediment dynamics. We outline the methodological steps used to collect and process this complex point cloud data, and detail the procedures used to process and calibrate the aDcp flow and sediment flux data. A comparison with conventional remote sensing methods of estimating bank erosion, using aerial images and Landsat imagery, reveals that traditional techniques are error prone at the high temporal resolutions required to quantify the patterns and volumes of bank erosion induced by the passage of individual flood events. Our analysis reveals the importance of cyclone-driven flood events in causing high rates of erosion and suspended sediment transport, with a c. twofold increase in bank erosion volumes and a fourfold increase in suspended sediment volumes in the cyclone-affected wet season.

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Accepted/In Press date: 31 October 2016
e-pub ahead of print date: 4 November 2016
Published date: 1 February 2017
Organisations: Earth Surface Dynamics

Identifiers

Local EPrints ID: 402455
URI: http://eprints.soton.ac.uk/id/eprint/402455
DOI: doi:10.1002/esp.4078
ISSN: 0197-9337
PURE UUID: 2eb1f6c2-e005-4225-ae0b-43df42a7072f
ORCID for Julian Leyland: ORCID iD orcid.org/0000-0002-3419-9949
ORCID for Stephen Darby: ORCID iD orcid.org/0000-0001-8778-4394

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Date deposited: 09 Nov 2016 11:18
Last modified: 16 Mar 2024 02:59

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Contributors

Author: Julian Leyland ORCID iD
Author: Christopher Hackney
Author: Stephen Darby ORCID iD
Author: Daniel Parsons
Author: James Best
Author: Andrew Nicholas
Author: Rolf Aalto
Author: Dimitri Lague

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