Abstract
The Gulf corvina, Cynoscion othonopterus, is an endemic sciaenid of the Upper Gulf of California and Colorado River Delta biosphere reserve. It is a high-value fishery resource in this region. To sustainably manage this resource, it is necessary to address its individual growth pattern. Previous studies on C. othonopterus growth have fitted the von Bertalanffy growth model (VBGM) without examining alternative models. In this study, the main objective was to analyze the individual growth of the Gulf corvina via a multi-model inference (MMI) approach rather than simply applying the VBGM. Five growth models—VBGM, logistic, Gompertz, Schnute, and Schnute–Richards—were tested. The parameters of each model and their confidence intervals (CI) were computed using the maximumlikelihood method. The MMI was used to average the asymptotic length (L∞). The best-fitting model was selected using the Akaike information criterion, and the Schnute–Richards growth model best described the growth of the Gulf corvina. The L∞ values obtained via MMI averaged 735.0 mm (95% CI: 730.4–739.5 mm). The conclusion is that the growth of C. othonopterus exhibits a biphasic pattern that is better described by a higher-parameter model such as the Schnute–Richards model.
Highlights
The Gulf corvina, Cynoscion othonopterus (Jordan and Gilbert 1882), is endemic to the Upper Gulf of California (UGC)
Previous studies (Román-Rodríguez 2000, Erisman et al 2009, Erisman 2012) that have reported on C. othonopterus growth have all used the von Bertalanffy growth model (VBGM); for that reason, the objective of the present study was to determine the growth parameters of the Gulf corvina in the UGC using a multi-model approach and to evaluate the utility of averaged versus raw data for computing the growth parameters
A bimodal distribution resulted from the combination of the bycatch and targeted fisheries data
Summary
The Gulf corvina, Cynoscion othonopterus (Jordan and Gilbert 1882), is endemic to the Upper Gulf of California (UGC) (fig. 1). The Gulf corvina, Cynoscion othonopterus (Jordan and Gilbert 1882), is endemic to the Upper Gulf of California (UGC) The Gulf corvina can reach a total length of 920 mm and live for at least 9 years (Román-Rodríguez 2000). Adults are carnivorous, feeding on benthic crustaceans such as shrimp and crabs, mollusks such as octopus and squid, and schooling fishes such as sardine and anchovies (Román-Rodríguez 2000). This species exhibits fidelity to spawning site and season and is considered an aggregate spawning species (Sadovy and Erisman 2012).
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