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Decimeter-scale in situ mapping of modern cross-bedded dune deposits using parametric echo sounding (PES): a new method for linking river processes and their deposits

Decimeter-scale in situ mapping of modern cross-bedded dune deposits using parametric echo sounding (PES): a new method for linking river processes and their deposits
Decimeter-scale in situ mapping of modern cross-bedded dune deposits using parametric echo sounding (PES): a new method for linking river processes and their deposits
Collecting high-resolution data to quantify the sedimentary architecture within contemporary alluvial channels remains one of the outstanding challenges in fluvial sedimentology. Here, we present data collected using a new geophysical method, the parametric echo sounder (PES), which can meet this challenge. From surveys over a field of sand dunes in the Río Paraná, Argentina, we demonstrate the unique ability of PES to image the subsurface structure within active channels at a decimetric resolution. These data reveal the bounding surfaces between bars and dunes, as well as the foresets and reactivation surfaces within them. This provides quantitative in situ data for recent work that suggests cross-strata preserved by dunes may be more related to flow depths less than the commonly assumed bankfull level. These surveys demonstrate that PES can provide hitherto unobtainable data from alluvial channels, and presents significant opportunities for more detailed coupled studies of fluvial processes and their deposits.
parametric echo sounder (PES), Rio Parana, dunes, sedimentology
0094-8276
3883-3887
Sambrook Smith, Gregory H.
eb547cd6-92ff-4cea-82f8-6d94825165bc
Best, James L.
06bd4666-518e-469f-b2ce-76c92ea3d5ef
Orfeo, Oscar
9068fa34-cfd9-4685-bde0-3b295b612797
Vardy, Mark E.
8dd019dc-e57d-4b49-8f23-0fa6d246e69d
Zinger, Jessica A.
d74306aa-432f-41eb-ae94-a314169910c9
Sambrook Smith, Gregory H.
eb547cd6-92ff-4cea-82f8-6d94825165bc
Best, James L.
06bd4666-518e-469f-b2ce-76c92ea3d5ef
Orfeo, Oscar
9068fa34-cfd9-4685-bde0-3b295b612797
Vardy, Mark E.
8dd019dc-e57d-4b49-8f23-0fa6d246e69d
Zinger, Jessica A.
d74306aa-432f-41eb-ae94-a314169910c9

Sambrook Smith, Gregory H., Best, James L., Orfeo, Oscar, Vardy, Mark E. and Zinger, Jessica A. (2013) Decimeter-scale in situ mapping of modern cross-bedded dune deposits using parametric echo sounding (PES): a new method for linking river processes and their deposits. Geophysical Research Letters, 40 (15), 3883-3887. (doi:10.1002/grl.50703).

Record type: Article

Abstract

Collecting high-resolution data to quantify the sedimentary architecture within contemporary alluvial channels remains one of the outstanding challenges in fluvial sedimentology. Here, we present data collected using a new geophysical method, the parametric echo sounder (PES), which can meet this challenge. From surveys over a field of sand dunes in the Río Paraná, Argentina, we demonstrate the unique ability of PES to image the subsurface structure within active channels at a decimetric resolution. These data reveal the bounding surfaces between bars and dunes, as well as the foresets and reactivation surfaces within them. This provides quantitative in situ data for recent work that suggests cross-strata preserved by dunes may be more related to flow depths less than the commonly assumed bankfull level. These surveys demonstrate that PES can provide hitherto unobtainable data from alluvial channels, and presents significant opportunities for more detailed coupled studies of fluvial processes and their deposits.

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More information

e-pub ahead of print date: 1 July 2013
Published date: 16 August 2013
Keywords: parametric echo sounder (PES), Rio Parana, dunes, sedimentology
Organisations: Geology & Geophysics

Identifiers

Local EPrints ID: 354574
URI: http://eprints.soton.ac.uk/id/eprint/354574
DOI: doi:10.1002/grl.50703
ISSN: 0094-8276
PURE UUID: 5dc4b314-af13-49cd-b2b0-cd75a6903d26

Catalogue record

Date deposited: 15 Jul 2013 15:19
Last modified: 14 Mar 2024 14:21

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Contributors

Author: Gregory H. Sambrook Smith
Author: James L. Best
Author: Oscar Orfeo
Author: Mark E. Vardy
Author: Jessica A. Zinger

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