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Field testing a high-frequency acoustic attenuation system for measuring fine suspended sediments and algal movements

August 17, 2022

Acoustic measurements of suspended sediment have the potential to allow remote, autonomous monitoring of sediment movements at much higher temporal resolution than traditional manual sampling methods. Although suspended sands present a challenging measurement problem due to their logarithmic distribution with depth, fine clay sediments are distributed evenly throughout a stream cross section, making them amenable to point measurements. In order to improve measurement capabilities for fine sediments in stream channels, The National Center for Physical Acoustics at The University of Mississippi has developed a remote, autonomous acoustic system to monitor fine sediments transported in streams. The system was tested on the Middle Rio Grande near San Acacia, New Mexico, and in Goodwin Creek in Panola County, Mississippi. The acoustic instruments were compared to sediment concentrations from physical samples in both deployments. Diurnal patterns were found in the acoustic signals from the Middle Rio Grande, and a follow up experiment at The University of Mississippi Biological Field Station was used to investigate the potential effects of algal biomass on acoustic attenuation measurements. The results showed diurnal patterns in attenuation were associated with patterns in light, temperature, and dissolved oxygen. These results combined with information from the literature indicate diel movement of algal colonies in the water column of some water bodies may interfere with high-frequency acoustic measurements in natural environments and that acoustic methods have the potential to allow ecological researchers to evaluate mass algal movements in the field. Results from Goodwin Creek demonstrate that the acoustic system is able to provide measurements of sediment concentration with high temporal resolution that track well with expected sediment transport patterns in response to discharge hydrographs.

Publication Year 2022
Title Field testing a high-frequency acoustic attenuation system for measuring fine suspended sediments and algal movements
DOI 10.1016/j.apacoust.2022.108980
Authors Wayne O. Carpenter, Bradley T. Goodwiller, Daniel G. Wren, Jason J. Taylor, Jonathan AuBuchon, Jeb E. Brown
Publication Type Article
Publication Subtype Journal Article
Series Title Applied Acoustics
Index ID 70255119
Record Source USGS Publications Warehouse
USGS Organization New Mexico Water Science Center
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