Macronutrient self-selection in European sea bass in response to dietary protein or fat restriction

Abstract

Because European sea bass (Dicentrarchus labrax L.) has strictly carnivorous feeding habits, protein and fat are the most important dietary components. In this paper we study the effect of restricted availability of protein and fat on the feeding behaviour and macronutrient selection. To this end, five groups of 20 sea bass with a body weight of 100.0 ± 20.1 g (mean ± SD) were raised in five circular 450-L tanks. Each group could choose among three self-feeders (experiment 1 and 2), each containing a different, incomplete, diet: P + CH (55.4% protein, 18.5% carbohydrate, DM diet), P + F (55.4% protein, 18.5% fat) or F + CH (36.9% fat, 36.9% carbohydrate) or between two self-feeders (experiment 3), each containing protein (100%) or carbohydrate–fat (52.7% and 47.3% respectively). In experiments 1 and 2, sea bass selected a diet consisting of 65.3% digestible energy (DE) protein, 26.2% DE fat and 8.4% DE carbohydrate. The composition of the self-selected diet did not differ when sea bass selected between the two diets in experiment 3. When fish were deprived of protein for two weeks, or deprived of fat for three weeks, they were unable to sustain their previous energy intake. This phenomenon was particularly evident during protein fasting, with the intake of fat and carbohydrate being negligible. During the first 2–3 days, after each fasting period, sea bass showed hyperphagic behaviour, but restricted availability of specific nutrients did not trigger any subsequent increased intake of these specific macronutrients. In conclusion, although sea bass were able to self-compose a nutritionally balanced diet from three or two incomplete diets, no specific hunger was elicited after two weeks of protein fasting or three weeks of fat fasting.