Bivariate Swimbladder Size Allometry Properties of Mesopelagic Fish and Bioacoustic Prediction.

Abstract

One of the fundamental problem in modeling the low frequency contributions to scattering strength of swim bladder fish is to transform a measured or theoretical size-depth distribution h(L/z) for an individual species to the corresponding distribution q (Rlz) of equivalent swimbladder radius R. This is usually done using a y-on-x regression line relation for the species, where y=1nR, x=Lnl, and 1=fish standard length. Analysis of archival Ocean Acre swimbladder size allometry data for 38 species indicates that this procedure is physically inadequate. Due to biological variability, a wide range of r-values is associated with a fish of length L. Since respondance scattering from gas filled swimbladders is depth-dependent, important scattering contributions may come from fish with bladder sizes R not lying on the regression line. To avoid systematic prediction errors, the x, y distribution p(x,y) rather than the regression line must be used to calculate q(R/z). This transformation problem and its modeling consequences are examined in light of the fact that p(x,y) for many swimbladder species has been found to be bivariate normal. Keywords: Low Frequency Volume Backscatter Strength; Low Frequency Target Strength Models; Resonance Scattering from Swim bladdered Fish; Sonar echoes.

Document Details

Document Type

Technical Report

Publication Date

Jan 20, 1987

Accession Number

ADA178032

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