Guerreiro, InêsMagalhães, RuiCoutinho, FilipeCouto, AnaSousa, SaraDelerue-Matos, CristinaDomingues, Valentina F.Oliva-Teles, AiresPeres, Helena2020-07-102020-07-1020180921-8971http://hdl.handle.net/10400.22/16094The effect of a dietary incorporation of the seaweedsUlva lactucaandChondrus crispusas functional ingredients was evaluatedin gilthead seabream (Sparus aurata) juvenile growth, feed efficiency, muscle lipid composition, intermediary metabolism,oxidative status and gut histomorphology. Fish (15 g initial body weight) were fed with isoproteic (46%) and isolipidic (18%)diets with fish meal (FM) and plant feedstuffs (PF) (27:73 protein from FM:PF) as main protein sources (control diet). Three otherdiets were formulated similar to the control but including 5%U. lactuca,5%C. crispusor 2.5% of both algae (dietsUlva,Chondrusand Mix, respectively). Dietary incorporation ofUlvadid not affect growth performance (P> 0.05) while it leads tohigher muscleΣSFA (saturated fatty acids); and liver lipid peroxidation (LPO). Moreover, lower muscleΣPUFA (polyunsatu-rated fatty acids) and plasma glucose was observed. Dietary incorporation ofChondrusleads to lower growth; whole-body drymatter and lipid content; muscleΣPUFA andω3 fatty acids; and plasma glucose. In addition, higher muscleΣMUFA (mono-unsaturated fatty acids); and liver LPO was observed. Dietary incorporation of both algae (Mix) led to lower growth; whole-bodylipid content; muscleΣPUFA andω3 fatty acids; plasma glucose; and hepatic PK (pyruvate kinase) and HOAD (3-hydroxyacyl-CoA dehydrogenase). Furthermore, it leads to higher muscleΣSFA andΣMUFA; and liver LPO. Overall, no beneficial effects ofincluding the tested seaweeds in the diets was observed, while oxidative status was negatively affected in all dietary treatments.engFeed ingredientsGut histomorphologyIntermediary metabolismMacroalgaeNutraceuticsOxidative stressjournal article10.1007/s10811-018-1708-7