Effect of triploidy on muscle cellularity and flesh quality of turbot ( Scophthalmus maximus )

Production of triploid turbot is a relevant goal for the aquaculture industry due to the benefits associated with their sterility and growth. In order for a better understanding of the final quality of the species, muscle cellularity and quality parameters of the flesh were studied in seven diploid and seven triploid turbot after sexual maturation. White muscle cellularity was evaluated throughout white muscle cross‐sectional area from the epaxial left muscle section of each fish. To ascertain the flesh quality, several physico‐chemical parameters (moisture, ash, protein, total fat, fatty acids and minerals) were analysed, and textural mechanical properties (springiness, hardness, chewiness, cohesiveness, gumminess and adhesiveness) were determined objectively with a texturometer. Muscle cellularity was different between both groups, such that muscle fibre density was higher for diploid specimens ( P  <   0.001) and muscle fibres diameters were higher for triploids ( P  <   0.001). Both ploidy groups showed no significant differences in moisture, ash, protein and total fat content ( P  >   0.05). All textural properties analysed showed no significant differences between both ploidy groups ( P  >   0.05). In both ploidy groups, fibre density and fibre diameter showed no significant correlations ( P  >   0.05) with textural parameters such as springiness, cohesiveness, chewiness and adhesiveness. Ploidy did not affect fatty acid composition, with the exception of eicosapentaenoic acid (C 20:5ω3 ) which was higher in the triploid group. No significant differences ( P  >   0.05) existed between diploid and triploid turbot in content of all minerals analysed. According to our results, the ploidy status determines significant variations on muscle cellularity but does not influence the flesh quality of the turbot.