3 research outputs found
Effect of lactic acid bacteria and the potential probiotic Hafnia alvei on growth and survival rates of narrow clawed crayfish (Astacus leptodactylus Esch., 1823) stage II juveniles
Get PDFThe aim of this study was to screen potential probiotic bacteria against Aeromonas hydrophila and determine the effects of antagonistic bacteria and a commercial product containing lactic acid bacteria on the survival and growth of stage II Astacus leptodactylus juveniles. For this purpose, a total of 110 bacterial strains were isolated from adult, stage II crayfish juveniles and rearing water screened for antagonistic activities against A. hydrophila with well diffusion agar assay. Hafnia alvei strain from stage II crayfish juveniles displayed the inhibition zone (10mm) against A. hydrophila. The experiment was conducted in a completely randomized design with four treatments for 60 days: (I) crayfish fed with live food without probiotics (control group); (II) crayfish fed with live food enriched with lactic acid bacteria (0.015 gL^-1); (III) crayfish fed with live food enriched with Hafnia alvei (10^6 CFU mL^−1); (IV) crayfish fed with control diet and H. alvei added to rearing water (10^6 CFU mL^−1). As a result of this study, lactic acid bacteria and Hafnia alvei applications did not positively affect growth and survival of stage II A. leptodactylus juveniles. In the future, studies on screening potential probiotic bacteria should be used in vitro and in vivo tests. In addition, it will be useful to investigate the lactic acid bacteria and Bacillus spp. from indigenous microflora of crayfish
In Vitro Testing of Potential Probiotic Bacteria against Vagococcus salmoninarum in Rainbow Trout (Oncorhynchus mykiss, Walbaum 1792)
Get PDFIn this study, probiotic properties of endogenous microbiota of rainbow trout against Vagococcus salmoninarum isolated during an outbreak of vagococcosis in a trout farm in the Mediterranean region were evaluated. The candidate probiotic bacteria were isolated from rainbow trout intestines. A total of 157 isolates were obtained and screened for antagonistic activity against V. salmoninarum via the Well Diffusion Agar method. Six isolates were determined for antagonistic activity against V. salmoninarum. Conventional microbiological tests and API 20 Strep tests (bioMe´rieux) were used for further phenotypic characterization of all six antagonistic isolates. For molecular identifications of isolates, L. garvieae specific PCR and 16S rRNA gene sequence analysis were used. Antagonistic strains were identified including TUB/2013/V47 (L. garvieae), TUB/2013/V27 (L.garvieae), TUB/2013/V10 (L. garvieae), TUB/2013/V2 (L. garvieae) TUB/2013/V1 (L. lactis) and TUB/2013/V4 (L. lactis). The strains were then tested for hydrophobicity, bile salts and acid tolerance and antimicrobial activity. All isolates were congo red-positive, indicating the presence of hydrophobic structures in their cell walls. It was determined that whole antagonistic strains were resistant to low pH conditions and 0.6-1.5% bile concentrations. Antimicrobial test results showed that most of the strains are susceptible in vitro to amoxicillin/clavulanic acid ampicillin, doxycycline, erythromycin and florfenicol, which are frequently used in aquaculture. As a result, it was found that strains have in vitro probiotic properties (hydrophobic, tolerant to bile salts and low pH conditions). Further study is needed to explore their in vivo probiotic effects against vagococcosi
