Effect of salinity on oxygen consumption and growth of juvenile white steenbras, litohognathus lithognathus

Abstract

A stress-induced increase in metabolic rate of fish consumes energy within the metabolic scope of a fish that could otherwise be used for such functions as growth and reproduction. By estimating the degree of the metabolic response under given salinity levels and sudden changes thereof, it could be tested whether growth under given culture conditions could be predicted. Using intermittent respirometers, this study investigated the metabolic response of juvenile Lithognathus lithognathus following gradual acclimation to 5, 25 and 35"° and, as a result of abrupt change from 35"° to 5"° or from 35"° to 25"° at 20ËšC. The main aim of the study was to establish whether the magnitude of such responses could be used to predict growth of juvenile L. lithognathus under culture conditions. Hence, in addition to the respirometry study, two growth studies were conducted at 5, 10, 25 and 35"° salinities. The baseline metabolic rates of juvenile L. lithognathus were also determined. Oxygen consumption measurements over 24-hours showed that most fish exhibited a diurnal peak in metabolic rates. The standard and active metabolic rates calculated from juvenile L. lithognathus with a diurnal peak in oxygen consumption were 0.06±0.001mgOâ‚‚g⠻¹h⠻¹ (mean±SEM, n = 5), and 0.11±0.01mg Oâ‚‚g⠻¹h⠻¹, respectively. The standard and active metabolic rates of juvenile L lithognathus showing a nocturnal peak in metabolic activities were 0.04±0.001mgOâ‚‚g-1h-1 (n = 1), and 0.12±0.003 mg Oâ‚‚g⠻¹ h⠻¹, respectively. Routine metabolic rate of these fish calculated over a 3-h measurement period was 0.09±0.005mgOâ‚‚g⠻¹h⠻¹ (n = 6). Juvenile L. lithognathus showed a relationship between metabolic rate (moâ‚‚) and body weight (W) following the equation: moâ‚‚ = 0.62 W⠻°·⠵³.