Dietary probiotic supplementation in juvenile rainbow trout (Oncorhynchus mykiss) reared under cage culture production: effects on growth, fish welfare, flesh quality and intestinal microbiota

Dietary probiotic supplementation in juvenile rainbow trout (Oncorhynchus mykiss) reared under cage culture production: effects on growth, fish welfare, flesh quality and intestinal microbiota

This study was conducted to evaluate the effects of dietary probiotic supplementation on growth performance, fish welfare, sensory evaluation, freshness during ice storage and changes in intestinal microbiota of rainbow trout (Oncorhynchus mykiss). The 9‐week feeding trial was conducted in cages und...

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Published in:Aquaculture research Vol. 47; no. 9; pp. 2732 - 2747
Main Authors: Ozório, Rodrigo O A, Kopecka-Pilarczyk, Justyna, Peixoto, Maria J, Lochmann, Rebecca, Santos, Ricardo J, Santos, Gonçalo, Weber, Barbara, Calheiros, Joaquim, Ferraz-Arruda, Lia, Vaz-Pires, Paulo, Gonçalves, José F M
Format: Journal Article
Language:English
Published: Oxford Blackwell Publishing Ltd 01-09-2016
Hindawi Limited
Subjects:
Bacillus
Enterococcus
flesh quality
growth
Lactobacillus
Oncorhynchus mykiss
Pediococcus
probiotics
rainbow trout
sensory evaluation
welfare
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Summary:This study was conducted to evaluate the effects of dietary probiotic supplementation on growth performance, fish welfare, sensory evaluation, freshness during ice storage and changes in intestinal microbiota of rainbow trout (Oncorhynchus mykiss). The 9‐week feeding trial was conducted in cages under commercial conditions during the winter season, when water temperature decreased from 14°C to 7°C. Fish were fed either a diet without probiotic supplementation (control) or with 0.2% (2 × 109 CFU kg−1 diet) of multi‐strain probiotic bacteria (Bacillus sp., Pediococcus sp., Enterococcus sp., Lactobacillus sp.). Fish weight was recorded at 0, 2, 4, 6 and 9 weeks. Growth performance was not affected by dietary probiotic supplementation. Alternative complement activity (ACH50) was significantly higher in fish fed the diet with probiotic (58.4 ± 3.7 units mL−1) than in the control group (46.9 ± 3.1 units mL−1) (P = 0.03). Several biochemical markers were altered by the dietary treatment. 7‐ethoxyresorufin‐O‐deethylase (EROD) (P < 0.01), glutathione S‐transferase (GST) (P < 0.001), glutathione peroxidase (GPx) (P < 0.05) increased and lipid peroxidation (LP) (P < 0.01) decreased with dietary probiotic supplementation. Flesh quality and shelf‐life of fish stored on ice was not affected by dietary probiotic supplementation. Probiotic supplementation had a limited effect on the intestinal microbiota. Signal strength of the observed operational taxonomic units (OTUs) differed between the control and treatment samples and could indicate variations in the abundance of certain OTUs. Microbiota adhering to the intestinal mucus varied between sampling points, indicating that changes were associated with water temperature.
Bibliography:COMPETE - Operational Competitiveness Programme
FCT - Foundation for Science and Technology
ark:/67375/WNG-JRSCGC6H-D
ArticleID:ARE12724
istex:BB3F0D042AD2F3238F4F1A8084CED5F51F6F0337
FCT-MCTES - No. SFRH/BPD/32125/2006
European Regional Development Fund
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1355-557X
1365-2109
DOI:10.1111/are.12724