Modelled target strengths of three lanternfish (family: Myctophidae) in the north east Atlantic based on swimbladder and body morphology

At mesopelagic depths (200-1000 m), in the oceanic parts of the earth, there are probably the most abundant fish assemblages in the world, often observed on echosounder displays as sound scattering layers extending over vast areas. Lanternfish are believed to be an important part of those layers. In...

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Bibliographic Details
Main Author: Bardarson, Birkir
Other Authors: Brierley, Andrew
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: University of St Andrews 2015
Subjects:
Target strength
Acoustic
Swimbladder
Prolate spheroid model
Distorted wave born approximation model
Lanternfish
Mesopelagic fish
Northeast Atlantic
Myctophid
Benthosema glaciale
Notoscopelus kroeyerii
Myctophum punctatum
QL638.M9B2
Lanternfishes
Air-bladder (in fishes)
Sonar
North Atlantic Ocean
North Atlantic
North East Atlantic
Online Access:http://hdl.handle.net/10023/6607
Description
Summary:At mesopelagic depths (200-1000 m), in the oceanic parts of the earth, there are probably the most abundant fish assemblages in the world, often observed on echosounder displays as sound scattering layers extending over vast areas. Lanternfish are believed to be an important part of those layers. In recent years, acoustic backscatter has been used successfully to quantify pelagic fish stocks, where knowledge of individual fish backscatter proportion, the target strength, is essential for reliable estimate. More knowledge on target strength of the lanternfish found in the Northeast Atlantic is needed before they can be properly identified and quantified by acoustics. Air in the swimbladder will cause much stronger backscatter than the fish body. In this study, external morphology and swimbladder morphology of three abundant lanternfish species (Benthosema glaciale, Notoscopelus kroeyerii and Myctophum punctatum) were measured using digital imaging and soft x-ray technology to inform theoretical acoustic target strength (TS) models. The soft x-ray measurements indicated that 71% by number of the adult B. glaciale population (sample size (n) = 85) had an air filled swimbladder, while N. kroeyrii (n = 127) and M. punctatum (n = 99) did not have inflated swimbladders in their adult stage. A distorted wave Born approximation (DWBA) model was used to estimate TS contribution of the fish body while a prolate spheroid resonance scattering model was used for contribution of swimbladder. Further, a comparison was made with exact solution models. At 38 kHz, the commonly used frequency in scientific surveys, N. kroeyri was estimated with the TS length relationship of 22.6 log(SL) – 92.8 while M. punctatum had 10.9 log(SL) – 81.5. At same frequency the mean TS of B. glaciale was estimated as -64.29 dB with 95% confidence limits of -65.52 and -63.33 dB. Further the TS estimates and scattering properties of all three species were estimated at different frequencies (18, 38, 70, 120 and 200 kHz). These multifrequency TS data will ...

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