Investigation of echo sounding parameters for the characterisation of bottom sediments in a sub-tropical reservoir

Investigation of echo sounding parameters for the characterisation of bottom sediments in a sub-tropical reservoir

<p>The increasing number of reservoirs around the world today reaches a surface area of around 500,000 km², equaling one third of that of non-artificial surface water bodies. By impounding rivers through the construction of dams, riverine systems and biochemical cycles are disrupted. Different...

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Bibliographic Details
Main Authors: Stephan Hilgert, Adrian Wagner, Lisa Kiemle, Stephan Fuchs
Format: Article
Language:English
Published: PAGEPress Publications 2016-07-01
Series:Advances in Oceanography and Limnology
Subjects:
Echo sounding
sediment characterisation
pulse length
sediment sampling
SBC, reservoir.
Online Access:http://pagepressjournals.org/index.php/aiol/article/view/5623
Description
Summary:<p>The increasing number of reservoirs around the world today reaches a surface area of around 500,000 km², equaling one third of that of non-artificial surface water bodies. By impounding rivers through the construction of dams, riverine systems and biochemical cycles are disrupted. Different types of transported materials are trapped behind the dams and form layers of sediment. A method to characterise the spatially extensive sediment volumes with an EA 400 echo sounder was tested in the Vossoroca reservoir in the southeast of Brazil, Paraná State. A number of core and grab samples was taken and analysed for a variety of chemical and physical parameters. These data served as ground truthing for the hydro-acoustic assessment of the sediment. Eight hydro-acoustic parameters were derived from the echo signals using the Sonar5-Pro software. The major objective of defining the optimal survey parameters for the echo sounder as well as determining the difference between core and grab samples was reached by correlating the various single parameters and identifying the best combinations. Density and grain size distribution represented the best detectable sediment features with <em>r</em>-values of 0.94 and 0.95. The lower 38 kHz frequency generally had a better performance than the 200 kHz frequency. Results show that core samples reached a significantly higher quality of correlation for sediment characterisation. Additionally, it is was found that shorter pulse lengths yield a better characterisation. The results underline the potential of single beam echo sounders for extensive sediment characterisation. This methodology may be used for future mass balance estimations of large reservoirs.</p>
ISSN:1947-5721
1947-573X

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