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Combined effects of water quality and stocking density on welfare and growth of rainbow trout (Oncorhynchus mykiss)

Published online by Cambridge University Press:  29 April 2008

Jeannine Person-Le Ruyet
Affiliation:
Ifremer, UMR 1067-PFOM, Centre de Brest, 29280 Plouzané, France
Laurent Labbé
Affiliation:
Inra, PEIMA, 29450 Sizun, France
Nicolas Le Bayon
Affiliation:
Ifremer, UMR 1067-PFOM, Centre de Brest, 29280 Plouzané, France
Armelle Sévère
Affiliation:
Ifremer, UMR 1067-PFOM, Centre de Brest, 29280 Plouzané, France
Annick Le Roux
Affiliation:
Ifremer, UMR 1067-PFOM, Centre de Brest, 29280 Plouzané, France
Hervé Le Delliou
Affiliation:
Ifremer, UMR 1067-PFOM, Centre de Brest, 29280 Plouzané, France
Loic Quéméner
Affiliation:
Ifremer, UMR 1067-PFOM, Centre de Brest, 29280 Plouzané, France
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Abstract

An 84-day experiment assessed the combined effects of two fresh water quality levels (H: 1.71 ± 0.15 mg O2l−1 and 0.28 ± 0.01 mg l−1 total ammonia nitrogen (T-AN), L: 5.15 ± 0.07 mg O2l−1 and 0.54 ± 0.01 mg T-AN l−1) and 3 stabilized stocking densities: 24.8 ± 0.2, 74.2 ± 0.5 and 120.0 ± 0.9 kg m−3) on rainbow trout. Fish were fed using demand feeders with rewards proportional to stocking density. Mass increase was significantly affected by water quality and stocking density, being highest in H water and the lowest at 120 kg m−3. There was no significant difference in final weight between 25 and 74 kg m−3, but at 120 kg m−3 it was 27% and 19% lower in H and L water respectively than at 25 kg m−3. Feed intake (FI) from day 0–85 was significantly affected by water quality, 1.5% in H compared to 1.1–1.0 in L, but there were no significant differences in apparent feed conversion (AFC). FI was not significantly affected by stocking density but AFC was impaired, it increased with stocking density. Marked changes in fish morphology and composition were related to water quality: Condition K factor and fillet fat content were significantly higher in H than in L groups. Dorsal and pectoral fin condition was affected by stocking density and water quality: fins were significantly longer and less eroded in L groups and at low stocking density. Physiological measures were within the usual ranges, but differed between treatments. Changes in plasma osmolarity, hydromineral balance (Na+) and acid base balance (HCO3 ) showed that fish were more affected by water quality than by stocking density. There was no sign of acute stress in acclimated fish as cortisol and glycemia were similar under all experimental conditions. This study highlights the importance of water quality and feeding conditions when considering the effects of stocking density on fish welfare.

Type
Research Article
Copyright
© EDP Sciences, IFREMER, IRD, 2008

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References

Anonymous, Farm Animal Welfare Council, 1996, Report on the welfare of farmed fish. FAWC, Surbiton, Surrey., 13 p.
AOAC (Association of Official Analytical Chemists), 1984, Official methods of analysis of the Association of Analytical Chemists, S. Williams ed. Arlington, VA.
Ashley, P.J., 2007, Fish welfare: current issues in aquaculture. Appl. Anim. Behav. Sci. 104, 199235. CrossRef
Barton, B.A., 2002, Stress in fish: a diversity of responses with particular reference to changes in corticosteroids. Integ. Comp. Biol. 42, 517525. CrossRef
Barcellos, L.J.G., Ritter, F., Kreutz, L.C., Quevedo, R.M., Da Silva, L.B., Bedin, A.C., Finco, J., Cericato, L., 2007, Whole body cortisol increases after direct and visual contact with a predator in zebrafish, Danio rerio. Aquaculture 272, 774778. CrossRef
Bégout-Anras, M.L., Lagardère, J.P., 2004, Measuring cultured fish swimming behaviour: first results on rainbow trout using acoustic telemetry in tanks. Aquaculture 240, 175186. CrossRef
Boeuf, G., Le Bail, P.Y., Prunet, P., 1989, Growth hormone and thyroid hormones during Atlantic salmon Salmo salar L., smoltification and after transfer to seawater. Aquaculture 82, 257268. CrossRef
Boujard T., Labbé L., Aupérin B., 2002, Feeding behaviour, energy expenditure and growth of rainbow trout in relation to stocking density and food accessibility. Aquac. Res. 33, 1233–1242.
Brett J.R., 1979, Environmental factors and growth. In: Hoar W.S., Randall D.J., Brett J.R. (Eds.), Bioenergetics and growth. Fish Physiology, vol.VIII, Academic Press, New York, pp. 599–675.
Brett J.R., Groves T.D.D., 1979, Physiological energetics. In: Hoar, W.S., Randall, D.J., Brett J.R. (Eds.), Bioenergetics and growth. Fish Physiology, vol. VIII, Academic Press, New York, pp. 279–352.
Conte, F.S., 2004, Stress and the welfare of cultured fish. Appl. Anim. Behav. Sci. 86, 205223. CrossRef
Ellis, T., North, B.P., Scott, A.P., Bromage, N.R., Porter, M.J., Gadd, D., 2002, The relationships between stocking density and welfare in farmed rainbow trout. J. Fish Biol. 61, 493531. CrossRef
EPA, 1998, Update of ambient water quality criteria for ammonia. EPA 822-R-98-008, Washington, United States Environmental Protection Agency.
Fivelstad, S., Bergheim, A., Holland, P.M., Fjermedal, A.B., 2004, Water flow requirements in the intensive production of Atlantic salmon (Salmo salar L.) parr-smolt at two salinity levels. Aquaculture 231, 263277. CrossRef
Fostier, A., Billard, R., Breton, B., Legendre, M., Marlot, S., 1982, Plasma 11-exotestosterone and gonadotropin during the beginning of spermiation in rainbow trout (Salmo gairdneri R.). Gen. Comp. Endocrinol. 46, 428434. CrossRef
Geode, R.W., Barton, B.A., 1990, Organismic indices and an autopsy-based assessment as indicators of health and condition of fish. Am. Fish. Soc. Symp. 8, 93108.
Gornati R., Papis E., Rimoldi S., Terova G., Saroglia M., Bernadini G., 2004, Rearing density influences the expression of stress-related genes in sea bas (Dicentrarchus labrax L.) Gene 1, 111–118.
Holm, J.C., Refstie, T., Sigbjorn, B., 1990, The effect of fish density and feeding regimes on the individual growth rate and mortality in rainbow trout (Oncorhynchus mykiss). Aquaculture 89, 225232. CrossRef
Hoyle, I., Oidtmann, B., Ellis, T., Turnbull, J., North, B., Nikolaidis, J, Knowles, T.G., 2007, A validated macroscopic key to assess fin damage in farmed rainbow trout (Oncorhynchus mykiss). Aquaculture 207, 142148. CrossRef
Huntingford, F.A., Adams, C.E., Braithwaite, V.A., Kadri, S., Pottinger, T.G., Sandoe, P., Turnbull, J.F., 2006, Current issues in fish welfare. J. Fish Biol. 68, 332372. CrossRef
Johansson, O., Wedborg, W., 1980, The ammonia-ammonium equilibrium in sea water at temperature between 5 and 25 °C. J. Solut. Chem. 91, 3744. CrossRef
Jobling M., 1994, Fish bioenergetics. Chapman & Hall, London.
Knoph, M.B., Thorud, K., 1996, Toxicity of ammonia to Atlantic salmon (Salmo salar) in sea water. Effects on plasma osmolality, ion, ammonia, urea and glucose levels and haematologic parameters. Comp. Biochem. Physiol. 113A, 375381. CrossRef
Latremouille, D.N., 2003, Fin erosion in aquaculture and natural environments. Rev. Fish. Sci. 11, 315335. CrossRef
Lefrançois, C., Claireaux, G., Mercier, C., Aubin, J., 2001, Effect of density on the routine metabolic expenditure of farmed rainbow trout (Onchorhynchus mykiss). Aquaculture 195, 269277. CrossRef
Lemarié, G., Dosdat, A., Coves, D., Dutto, G., Gasset, E., Person-Le Ruyet, J., 2004, Effect of chronic ammonia exposure on growth of European seabass (Dicentrarchus labrax) juveniles. Aquaculture 229, 479491. CrossRef
Mambrini, M., Sanchez, M.P., Chevassus, B., Labbé, L., Quillet, E., Boujard, T., 2004, Selection for growth increases feed intake and affects feeding behavior of brown trout. Livestock Prod. Sci. 88, 8598. CrossRef
Maxime, V., Pichavant, K., Boeuf, G., Nonnotte, G., 2000, Effects of hypoxia on respiratory physiology of turbot, Psetta maxima. J. Fish Biol. 22, 5159.
Montero, D., Izquierdo, M.S., Tort, L., Robaina, L., Vergara, J.M., 1999, High stocking density produces crowding stress altering some physiological and biochemical parameters in gilthead seabream, Sparus aurata, juveniles. Fish Physiol. Biochem. 20, 5360. CrossRef
Moutou, K. A., McCarthy, I.D., Houlihan, D.F., 1998, The effect of ration level and social rank on the development of fin damage in juvenile rainbow trout. J. Fish Biol. 52, 756770. CrossRef
North, B.P., Turnbull, J.F., Ellis, T., Porter, M.J., Migaud, H., Bron, J., Bromage, N.R., 2006a, The impact of stocking density on the welfare of rainbow trout (Oncorhynchus mykiss). Aquaculture 255, 466479. CrossRef
North, B.P., Ellis, T., Davis, J., Bromage, N.R., 2006b, Stocking density practices of commercial UK rainbow trout farms. Aquaculture 259, 260267. CrossRef
Noble, C., Mizusawa, K., Suzuki, K., Tabata, M., 2007, The effect of differing self-feeding regimes on the growth, behaviour and fin damage of rainbow trout held in groups. Aquaculture 264, 214222. CrossRef
Pelis, R.M., McCormick, S.D., 2003, Fin development in stream- and hatchery-reared Atlantic Salmon. Aquaculture 220, 525536. CrossRef
Person-Le Ruyet, J., Galland, R., Le Roux, A., Chartois, H., 1997, Chronic ammonia toxicity in juvenile turbot (Scophthalmus maximus). Aquaculture 154, 155171. CrossRef
Person-Le Ruyet, J., Lamers, A., Le Roux, A., Sévère, A., Bœuf, G., Mayer Gostan, N., 2003a, Long-term ammonia exposure of turbot: effects on plasma parameters. J. Fish Biol. 62, 879894. CrossRef
Person-Le Ruyet, J., Lacut, A., Le Bayon, N., Le Roux, A., Pichavant, K., Quéméner, L., 2003b, Effects of repeated hypoxic shocks on growth and metabolism of turbot juveniles. Aquat. Living Resour. 16, 2534. CrossRef
Person-Le Ruyet, J., Mahé, K., Le Bayon, N., Le Delliou, H., Quéméner, L., 2004, Effects of temperature on somatic growth and metabolism in a mediterranean population of European sea bass, Dicentrarchus labrax. Aquaculture 237, 269280. CrossRef
Person-Le Ruyet, J., Le Bayon, N., Gros, S., 2007, How to assess fin damage in rainbow trout, Oncorhynchus mykiss? Aquat. Living Resour. 20, 191195. CrossRef
Petersen, C.L., 1987, Energy budgets for juvenile rainbow trout at various oxygen concentrations. Aquaculture 62, 289298. CrossRef
Pichavant, K., Person-Le Ruyet, J., Le Bayon, N., Sévère, A., Le Roux, A., Bœuf, G., 2001, Comparative effects of long-term hypoxia on growth, feeding and oxygen consumption in juvenile turbot and European seabass. J. Fish Biol. 59, 875883. CrossRef
Procarione, L.S., Barry, T. P., Malison, J.A., 1999, Effects of high rearing densities and loading rates on the growth and stress responses of juveniles rainbow trout. N. Am. J. Aquac. 61, 9196. 2.0.CO;2>CrossRef
Spoolder, H., De Rosa, G., Hoeming, B., Waiblinger, S., Wemelsfelder, F., 2003, Integrating parameters to assess on-farm welfare. Anim. Welfare 12, 529534.
Thurston, R.V., Philipps, G.R., Russo, R.C., 1981, Increased toxicity of ammonia to rainbow trout (S. gairdneri) resulting from reduced concentrations of dissolved oxygen. Can. J. Fish. Aquat. Sci. 2, 291314.
Trenzado, C.E., Morales, A.E., de la Higuera, M., 2006, Physiological effects of crowding in rainbow trout, Oncorhynchus mykiss, selected for low and high stress responsiveness. Aquaculture 258, 583593. CrossRef
Turnbull, J.F., Bell, A., Adams, C.E., Bron, J., Huntingford, F.A., 2005, Stocking density and welfare of cage farmed Atlantic salmon: application of a multivariate analysis. Aquaculture 243, 121132. CrossRef
Vazanna, M., Cammerata, M., Cooper, E.L., Parrinello, N., 2002, Confinement stress in sea bass (Dicentrarchus labrax) depresses peritoneal leucocyte cytotoxicity. Aquaculture 210, 231243. CrossRef
Vijayan, M.M., Ballantyne, J.S., Leatherland, J.F., 1990, High stocking density alters the energy metabolism of brook charr, Salvelinus fontinalis. Aquaculture 88, 371381. CrossRef