Effects of Poly-β-hydroxybutyrate (PHB) and PHB degrading bacteria (Acidovorax sp.) on the growth performance, body composition and bacterial metabolic activity in Siberian Sturgeon (Acipenser baerii) fingerlings

H. Najdegerami, Ebrahim; Bossier, Peter

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Volume 7, Issue 1 (4-2019)

JAIR 2019, 7(1): 17-30

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Effects of Poly-β-hydroxybutyrate (PHB) and PHB degrading bacteria (Acidovorax sp.) on the growth performance, body composition and bacterial metabolic activity in Siberian Sturgeon (Acipenser baerii) fingerlings

Ebrahim H. Najdegerami ^*

, Peter Bossier

Abstract: (3513 Views)

Five hundred and ninety two Siberian sturgeon fingerlings (average weight, 11.1±0.9 g) were randomly distributed in 16 tanks (150 L) at a density of 35 fish per tank and fed different treatments (Control, degrading bacteria, 2% PHB, degrading bacteria + 2%PHB) for 60 days. At the end of the experiment, no significant difference was observed in case of final weight in fingerlings but fish fed PHB and degrading bacteria had lower FCR then the others (P<0.05). Also dietary treatments affected on the lipid percentage in fish muscle and lowest lipid content was observed in supplemented diets (P<0.05). The bacterial metabolic activity of fingerlings hindgut was investigated by biological oxygen demand (BOD₅) method using Oxitop® bottles and the results showed that the highest bacterial metabolic activity was seen in fish fed PHB. Also, at the end of the BOD test, bottles pH was measured and the results indicated that the lowest pH was observed in PHB and degrading bacteria treatments. The results in this experiment show that PHB and degrading bacteria have beneficial effects on growth performances and bacterial metabolic activity of Siberian sturgeon fingerlings. Such effects could be considered for new applications in aquaculture.

Keywords: Poly-β-hydroxybutyrate, Siberian sturgeon, metabolic activity, prebiotics

Full-Text [PDF 348 kb] (750 Downloads)

Type of Study: Research | Subject: Special
Received: 2016/01/25 | Accepted: 2016/10/16 | Published: 2019/04/25

References

1. AOAC International. 2000. In: Horwitz, W. (Ed.), Official Methods of Analysis of AOAC International, 17th ed. AOAC, Arlington, VA, USA.

2. Bakke-McKellep A., Penn M., Salas P., Refstie S., Sperstad S., Landsverk T., Ringo E., Krogdahl A. 2007. Effects of dietary soyabean meal, inulin and oxytetracycline on intestinal microbiota and epithelial cell stress, apoptosis and proliferation in the teleost Atlantic salmon (Salmo salar L.). British Journal of Nutrition, 97: 699-713.

3. Bauer O., Pugachev O., Voronin V. 2002. Study of parasites and diseases of sturgeons in Russia: a review. Journal of Applied Ichthyology, 18: 420-429.

4. Conte F. 2004. Stress and the welfare of cultured fish. Applied Animal Behavior Science, 86: 205-223.

5. De Schryver P., Sinha A., Kunwar P., Baruah K., Verstraete W., Boon N., De Boeck G., Bossier P. 2009. Poly-β-hydroxybutyrate (PHB) increases growth performance and intestinal bacterial range-weighted richness in juvenile European sea bass (Dicentrarchus labrax). Applied Microbiology and Biotechnology, 86: 1535-1541.

6. Defoirdt T., Boon N., Sorgeloos P., Verstraete W., Bossier P. 2007a. Alternatives to antibiotics to control bacterial infections: luminescent vibriosis in aquaculture as an example. Trends in Biotechnology, 25: 472-479.

7. Defoirdt T., Halet D., Vervaeren H., Boon N., Van de Wiele T., Sorgeloos P., Bossier P., Verstraete W. 2007b. The bacterial storage compound poly-β- hydroxybutyrate protects Artemia franciscana from pathogenic Vibrio campbellii. Environmental Microbiology, 9: 445-452.

8. Delzenne N., Cani P., Neyrinck A. 2008. Prebiotics and Lipid Metabolism. ASM press. Washington, DC, USA. 218 P.

9. Delzenne N., Williams C. 2002. Prebiotics and lipid metabolism. Current Opinion in Lipidology, 13: 61-67.

10. Fialova A., Boschke E., Bley T. 2004. Rapid monitoring of the biodegradation of phenol-like compounds by the yeast Candida maltosa using BOD measurements. International Biodeterioration and Biodegradation, 54: 69-76

11. Gisbert E., Williot P. 2002. Advances in the larval rearing of Siberian sturgeon. Journal of Fish Biology, 60: 1071-1092.

12. Guilloteau P., Zabielski R., David J., Blum J., Morisset J., Biernat M., Wolinski J., Laubitz D., Hamon Y. 2009. Sodium-butyrate as a growth promoter in milk replacer formula for young calves. Journal of Dairy Science, 92: 1038-1049.

13. Kato N., Konishi H., Shimao M., Sakazawa C. 1992. Production of 3- hydroxybutyric acid trimer by Bacillus megaterium B-124. Journal of Fermentation and Bioengineering, 73: 246-247.

14. Lepage G., Roy C.C. 1984. Improved Recovery of Fatty Acid through Direct Transesterification without Prior Extraction or Purification. The Journal of Lipid Research, 25: 1391-1396.

15. Liu Y., De Schryver P., Van Delsen B., Maignien L., Boon N., Sorgeloos P., Verstraete W., Bossier P., Defoirdt T. 2010. PHB-degrading bacteria isolated from the gastrointestinal tract of aquatic animals as protective actors against luminescent vibriosis. FEMS Microbiology Ecology, 74: 196-204.

16. Mussatto S., Mancilha I. 2007. Non-digestible oligosaccharides: A review. Carbohydrate Polymers, 68: 587-597.

17. Najdegerami E.H. 2014. Effects of poly-β-hydroxybutyrate on metabolic diversity of Siberian sturgeon (Acipenser baerii) fingerlings hindgut anaerobic bacterial by using community level physiological profile. Nova Biologica Reperta, 1: 1-9

18. Najdegerami E.H., Ngoc Tran T., Defoirdt T., Marzorati M., Sorgeloos P., Boon N., Bossier P. 2011. Effects of Poly-β-hydroxybutyrate (PHB) on Siberian Sturgeon (Acipenser baerii) Fingerlings Performance and its GI tract Microbial Community. Microbiology Ecology, 79: 25-33

19. Nhan D., Wille M., De Schryver P., Defoirdt T., Bossier P., Sorgeloos P. 2010. The effect of poly-β-hydroxybutyrate on larviculture of the giant freshwater prawn (Macrobrachium rosenbergii). Aquaculture, 302: 76-81.

20. Palmegiano G., Dapra F., Forneris G., Gai F., Gasco L., Guo K., Peiretti P., Sicuro B., Zoccarato I. 2006. Rice protein concentrate meal as a potential ingredient in practical diets for rainbow trout (Oncorhynchus mykiss). Aquaculture, 258: 357- 367.

21. Patnaik P. 2005. Perspectives in the modeling and optimization of PHB production by pure and mixed cultures. Critical Reviews in Biotechnology, 25: 153-171.

22. Roediger W. 1980. Role of anaerobic bacteria in the metabolic welfare of the colonic mucosa in man. Journal of Gut, 21: 793-798.

23. Sakata T. 1987. Stimulatory effect of short-chain fatty acids on epithelial cell proliferation in the rat intestine: A possible explanation for trophic effects of fermentable® bre, gut microbes and luminal tropic factors. British Journal of Nutrition, 58: 95-103.

24. Scheppach W. 1994. Effects of short chain fatty acids on gut morphology and function. Journal of Gut, 35: S35-S38.

25. Scholz-Ahrens K., Acil Y., Schrezenmeir J. 2002. Effect of oligofructose or dietary calcium on repeated calcium and phosphorus balances, bone mineralization and trabecular structure in ovariectomized rats. British Journal of Nutrition, 88: 365- 377.

26. Scholz-Ahrens K., Schrezenmeir J. 2007. Inulin and oligofructose and mineral metabolism: The evidence from animal trials. Journal of Nutrition, 137: 2513- 2523.

27. Van Cam DT., Hao NV., Dierckens K., Defoirdt T., Boon N., Sorgeloos P., Bossier P. 2009. Novel approach of using homoserine lactone degrading and poly-β-hydroxybutyrate accumulating bacteria to protect Artemia from the pathogenic effects of Vibrio harveyi. Aquaculture, 291: 23-30.

28. Van Immerseel F., De Buck J., Pasmans F., Velge P., Bottreau E., Fievez V., Haesebrouck F., Ducatelle R. 2003. Invasion of Salmonella enteriditis in avian intestinal epithelial cells in vitro is influenced by short chain fatty acids. Journal of Food Microbiology, 85: 237-248.

29. WTW. 2014. Instruction manual. Manometric BOD Measuring Devices. Available on (01/06/2014): http://www.globalw.com/downloads/WQ/oxitopis.pdf. 23 P.

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H. Najdegerami E, Bossier P. Effects of Poly-β-hydroxybutyrate (PHB) and PHB degrading bacteria (Acidovorax sp.) on the growth performance, body composition and bacterial metabolic activity in Siberian Sturgeon (Acipenser baerii) fingerlings. JAIR 2019; 7 (1) :17-30
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