1. [Untitled]
- Author
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Anders Jon Fjellheim, Jorunn Skjermo, Olav Vadstein, and Pavlos Makridis
- Subjects
Larva ,animal structures ,biology ,Hatching ,fungi ,Aquatic animal ,Aquatic Science ,Brachionus ,biology.organism_classification ,Scophthalmus ,Microbiology ,law.invention ,Turbot ,Probiotic ,Animal science ,law ,parasitic diseases ,Agronomy and Crop Science ,Bacteria - Abstract
Two bacterial strains, 4:44 and PB52, isolated from turbot(Scophthalmus maximus L.) were used during a first feedingexperiment with turbot larvae. Bacteria were either added directly tothe water on the day of hatching of the larvae (day 0), orbioencapsulated in rotifers (Brachionus plicatilis) distributedon day 2 after hatching. The two bacterial strains were found to bepresent in the water of the rearing tanks throughout the experiment. Theaddition of bacteria influenced the species-composition of themicroflora associated with intensively produced rotifers added to thetanks, and resulted in colonization of the gut of the larvae by theadded bacterial strains. The strain 4:44 showed a peak on day 9 afterhatching, and reached a mean(sem) of 2.5(1.4) × 104bacteria per larva, when added in a mixture with PB52, and 0.4(0.1)× 104 bacteria per larva, when added alone. The strainPB52, on day 12 after hatching, reached 5.2(1.5) × 104bacteria per larva when added in a mixture with strain 4:44, and12.5(0.7) × 104 bacteria per larva, when added alone.The added bacteria colonized the gut turbot larvae, whereas thebacterial land, the survival and growth of the larvae were in most casesnot influenced in a negative way by the addition of bacteria.
- Published
- 2000