Abstract
Herein, we investigated the effect of Chlorella vulgaris as ingredient (10% of incorporation) in broiler diets, supplemented or not with 2 formulations of Carbohydrate-Active enZymes (CAZymes; Rovabio Excel AP and a mixture of recombinant CAZymes, composed by an exo-β-glucosaminidase, an alginate lyase, a peptidoglycan N-acetylmuramic acid deacetylase and a lysozyme), on growth performance, meat quality, fatty acid composition, oxidative stability, and sensory traits. One hundred twenty 1-day-old Ross 308 male birds were randomly assigned to one of the 4 experimental diets (n = 30): corn-soybean meal–basal diet (control), basal diet with 10% C. vulgaris (CV), CV supplemented with 0.005% of a commercial CAZyme cocktail (Rovabio Excel AP), (CV + R), and CV supplemented with 0.01% of a 4-CAZyme mixture previously selected (CV + M) during the experimental period lasted from day 21 to day 35. Body weight gain and feed conversion rate of broilers were not affected by C. vulgaris but digesta viscosity increased more than 2-fold (P < 0.001) relative to the control. In addition, neither cooking loss, shear force, juiciness, flavor nor off-flavor was impaired by dietary treatments (P > 0.05). By contrast, the dietary C. vulgaris increased tenderness, yellowness (b∗) and total carotenoids in breast and thigh meats. However, no additional protective effect against lipid oxidation was observed in meat with the inclusion of microalga. Chlorella vulgaris, independently of CAZymes, had a minor impact on meat fatty acid composition but improved the proportion of some beneficial fatty acids. In summary, our data indicate a slight improvement of broiler meat quality and lipid nutritional value, without impairment of broilers' growth performance, thus supporting the usefulness of this microalga in poultry diets, up to this high level of incorporation. By contrast, the selected CAZyme mixtures used do not significantly improve the release of microalga nutrients in poultry diets, through the disruption of microalga cell wall, which warrants further research.
Highlights
The utilization of alternative high-quality protein supplements in animal feeds, replacing conventional protein sources, is currently encouraged because of sustainability issues
The viscosity content of the duodenum plus jejunum was higher in birds fed C. vulgaris, especially in those supplemented with Rovabio Excel AP (P, 0.001) compared with the control
Because b-carotene was not detected in both meats, it is suggested that the excess b-carotene in the experimental diets is metabolized into retinol (Nogareda et al, 2016). These findings reveal that the inclusion of 10% C. vulgaris in broiler diets, alone or with the 2 exogenous Carbohydrate-Active enZymes (CAZymes), enhanced the carotenoid content of chickens, thereby providing additional benefits for consumers
Summary
The utilization of alternative high-quality protein supplements in animal feeds, replacing conventional protein sources, is currently encouraged because of sustainability issues. The unicellular green microalga Chlorella vulgaris, known by the relative ease of cultivation and high productivity (Buono et al, 2014), has been incorporated in feeds as a source of protein and other valuable components, such as essential amino acids, polyunsaturated fatty acids, vitamins, and natural pigments (Becker, 2004; Jeon et al, 2012; Swiątkiewicz et al, 2015; Andrade et al, 2018). Dietary Chlorella could partially replace soybean in poultry feed because of high protein content (approximately 50%) and balanced amino acid profiles (Lamminen et al, 2019).
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