The influence of two commercial pro

The influence of two commercial probiotics on the growth, innate immune parameters and intestinal
morphology of rainbow trout (Oncorhynchus mykiss) juveniles (initial weight: 16.4±0.4 g) was evaluated. Two probiotic types: A, multi-species (Bacillussp.,Pedicoccussp.,Enterococcussp.,Lactobacillussp.)
and B, mono-species (Pediococcus acidilactici) were tested at two levels each (A1: 1.5 g kg
1
,
8.610
5
CFU g
1
;A2:3gkg
1
,1.610
6
CFU g
1
;B1:0.1gkg
1
, 2.6 10
4
CFU g
1
;B2: 0.2 g kg
1
,
7.210
4
CFU g
1
) versus an unsupplemented diet (C). Diets were distributed to sextuplicate tanks, three
times a day to visual satiation for 8 weeks. Growth performance and immune responses (plasma lysozyme, ACH50, peroxidase and head kidney respiratory burst) were determined at 4 and 8 weeks of
feeding. Body composition and intestine morphology were determined at the end of the feeding trial.
At 8 weeks, the lower dose of multi-species probiotic (A1) improved growth rate, while both probiotic
types improved feed conversion rate compared to the control animals, at the lower dose of multi-species
(A1) and at the higher dose of mono-species (B2) probiotics. Body composition did not vary between
treatments. At 4 weeks, ACH50 activity was significantly higher infish fed higher dose of B probiotic (B2,
123.7±50.6vs44.1±7.7 U.ml
-1
in control). At 8 weeks, lysozyme activity was higher in fish fed A1
(13.1±5.2mgml
1
) diet compared tofish fed control diet (7.8±1mgml
1
). Plasma peroxidase and headkidney respiratory burst did not differ among the dietary treatments.Villilength and integrity and goblet
cell counting of a cross section of the anterior intestine were not significantly different between groups.
Results suggest benefits in zootechnical performance and immune humoral responses using both
probiotic types, in a dose dependent manner, without apparent alterations in intestinal morphology