RIASSUNTO
Engraulis anchoita is a physostomous fish with a dual chambered swim bladder (sb). In situ target strength (TS) measurements on this species are only possible at night, when anchovies disperse and form a scattering layer near the sea surface. A survey data series comprising more than50000 single target detections, recorded from 1995 to 2008, was analyzed in order to study the species specific TS at 38 kHz. The results of this study were recently published at the ICES JMR and a synthesis is presented at RIO Acoustics Symposium given the importance of the several anchovies stocks distributed off South America's coasts. A TS vs. fish total length (L) equation was obtained from the in situ measurements (TS= 31.9 log L − 82.4 dB; R2= 0.78). When the slope of the regression line was forced to 20 into the TS equation, the resulting value for the constant term (b20) was −68.6 dB. In any case, these results indicate an average difference of +3 dB (higher TS values) when compared with the general model suggested for clupeoid fish. The TS measurements obtained inside the nighttime sound scattering layer exhibited a negative trend with depth. An empirical depth dependence term for the anchovy TS equation was obtained through a three parameter least square fitting of the data [TS= 31.3 log L − 79.6 dB − 4.74 log (1+z/10); R2=0.74]. Anatomical data obtained through high resolution X-Ray Computed Tomography was employed as input for a Prolate Spheroidal Model(PSM). Theoretical TS vs. tilt angle functions were obtained considering the compression of the sb at different depths and under the assumption of different contraction rates. The TS functions were then averaged over different fish tilt angle distributions and used to derive theoretical depth dependence curves of average fish TS. The implications of the adopted sb contraction rate and tilt angle distribution are discussed by comparing the modeled TS(z) curves against the empirical data. Additionally, the potential implications of fish behavior on TS, i.e., nighttime vs. daytime conditions, are discussed.