A series of investigations were carried out to assessth e intestinal microbiota of rainbow
trout and the potential applications of probiotics and bovine lactoferrin (M).
Farm and aquarium reared rainbow trout were examined with specific emphasis on the
autochthonous microbial communities. Culture-based, culture-independent and electron
microscopical investigations revealed mixed, complex microbial communities in all
intestinal regions. DGGE based analysis revealed unique species present either only as
allochthonous populations or autochthonous populations. 16S rRNA sequence analysis
allowed species level identification of a range of isolates, many of which have not been
identified from the rainbow trout digestive tract previously.
Two ftirther investigations were carried out to assess the potential of using commercial
probiotics and bovine Lf on growth, feed utilisation, health and intestinal colonisation of
rainbow trout. Standard commercial diets were supplemented with B. subtills, B.
licheniformis and Enterococcus faecium either singularly or synergistically. When
comparing the findings of the joint study it can be concluded that the application of
probiotics with rainbow trout, and likely other finfish species, is highly complicated. Full
intestinal replacement of indigenous microbiota is not likely to be a good idea when using
E. faecium; the results indicate that a synergistic relationship with the indigenous
microbiota is likely to be involved in providing host benefits. Bacillus probiotics only
appeared to be effective at high intestinal levels indicating that a synergistic relationship
with the indigenous microbiota may not be as important. T'he joint study also indicates that
it is not always possible to reproduce probiotic benefits even when using the same
probionts, the same fish species and similar rearing conditions. Thus, the physiological
status of the fish and the indigenous microbiota are likely to play an important role in the
outcome of probiotic administration.
A subsequent trial was conducted to evaluate Pediococcus acidilactic! as a probiotic for
rainbow trout. The experiment was conducted to supplement the diet with either
vegetative cells or lyophilised powder (as commercially provided). Despite successful
intestinal colonisation, irrelevant of supplementation form few significant benefits were
observed. SEM of the posterior mucosa revealed a localised colonisation pattern of P.
acidilactic! between the mucosal folds similar to the observed indigenous microbiota from
the farmed fish. This revelation led to a further trial to investigate the nature of probiotic
colonisation through the gastro-intestinal tract using electron microscopy. The study
confirmed the high colonisation of P. acidilactici on the epithelium of the anterior
intestine and posterior intestine. However, it was not possible to observe such colonisation
with Bacillus spp. or E. faeclum; despite culture-based results to the contrary. It is likely
that the true mucosal colonisation may sometimes be confused with colonisation of the
mucus layer as opposed to actual attachment to the epithelium itself. Therefore, it is
crucial to utilise electron microscopy in order to confirm epithelial colonisation.
The nature of both the indigenous microbiota and the application of probiotics appears to
be more complicated than previously thought and continued research is clearly warranted.
Date of Award | 2009 |
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Original language | English |
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Awarding Institution | |
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Evaluation of selected probiotics and bovine lactoferrin as feed supplements for rainbow trout (Oncorhynchus mykiss Walbaum) for applications in aquaculture
Merrifield, D. (Author). 2009
Student thesis: PhD