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Estimating target strength and physical characteristics of gas-bearing mesopelagic fish from wideband <i>in situ</i> echoes using a viscous-elastic scattering model

Babak Khodabandeloo, Mette Dalgaard Agersted, Thor A. Klevjer, Gavin J. Macaulay, Webjørn Melle

2021The Journal of the Acoustical Society of America25 citationsDOIOpen Access PDF

Abstract

Wideband (38 and 50-260 kHz) target strength of organisms were measured in situ using a towed platform in mesopelagic (200-1000 m depth) layers. Organisms with a gas-inclusion are strong scatterers of sound and acoustically distinct from organisms lacking one. In the mesopelagic zone, some of the fish species and physonect siphonophores have a gas-inclusion. Trawl and multinet biological sampling as well as photographic evidence indicate that in the study area (eastern mid-Atlantic Ocean) the majority of the gas-bearing organisms were fish. Subsequently, using a two-layer viscous-elastic spherical gas backscattering model, physical characteristics such as gas-bladder features and body flesh properties were deduced from the measured backscattering signal of individual gas-bearing fish. Acoustic techniques are non-extractive, can be used for the monitoring and quantification of marine organisms in a time- and cost-effective manner, and suit studies of the mesopelagic zone, which is logistically challenging. Vessel-mounted acoustics, widely used for epipelagic studies, has limitations for mesopelagic studies as the deep organisms are inaccessible to high-frequency (≳100 kHz) acoustic pulses transmitted from the surface due to absorption. Therefore, a towed platform equipped with wideband acoustics has several features that can be utilized for monitoring the mesopelagic dense scattering layers containing mixed species.

Topics & Concepts

Mesopelagic zoneTarget strengthPelagic zoneBackscatter (email)Fish <Actinopterygii>ScatteringAcousticsEcho soundingGeologyWidebandMaterials scienceOceanographyMineralogyBiologyPhysicsOpticsFisheryComputer scienceTelecommunicationsWirelessUnderwater Acoustics ResearchMarine animal studies overviewMarine and fisheries research