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http://hdl.handle.net/10553/51694
Título: | Safe limits of selenomethionine and selenite supplementation to plant-based Atlantic salmon feeds | Autores/as: | Berntssen, M. H.G. Betancor, M. Caballero, M. J. Hillestad, M. Rasinger, J. Hamre, K. Sele, V. Amlund, H. Ørnsrud, R. |
Clasificación UNESCO: | 251092 Acuicultura marina | Palabras clave: | Rainbow-Trout Salmo Physiological Stress-Response Fatty-Acid-Composition Dietary Selenium Oxidative Stress, et al. |
Fecha de publicación: | 2018 | Editor/a: | 0044-8486 | Publicación seriada: | Aquaculture | Resumen: | The use of plant-based feeds warrants the supplementation with selenium (Se) to cover the requirement for Atlantic salmon. Depending on its chemical form, Se is a trace element with a narrow range between requirement and toxicity for most vertebrates. Information on safe upper limit for Atlantic salmon feed supplementation is lacking. Atlantic salmon (147 g) were fed a low natural background organic Se diet (0.45 mg Se kg(-1), wet weight (ww)) fortified with 5 graded levels of inorganic sodium selenite (0.45, 5.4, 11.0, 29.4, or 60.0 mg kg(-1) ww) or organic selenomethionine (SeMet) (0.45, 6.2, 16.2, 21, or 39 mg kg(-1) ww), in triplicate for 3 months. Excess Se supplementation was assessed by targeted biomarkers of Se toxicity pathways (e.g. markers of oxidative stress and lipid metabolism), as well as general adverse effect parameters (plasma biochemistry, hematology, liver histopathology, and growth). Safe limits were set by model-fitting the effect data in a dose-response (lower bound) bench mark dose (BMDL) evaluation. Fish fed the two highest selenite levels showed mortality while fish fed SeMet had no mortality. Fish fed 5.4-11 mg selenite kg(-1) feed showed significantly (ANOVA, Tukey's t-test, p < .05) increased liver oxidative stress, as seen from altered hepatic GSH and vitamin E levels, and liver damage as seen from increased plasma ALAT and liver histopathology such as degeneration and focal necrosis. Fish fed SeMet mainly showed liver pathology and kidney dysfunction as seen from altered plasma creatinine and total plasma proteins in fish fed >= 21 mg kg(-1), compared to control. For selenite exposed fish, a safe feed limit (BMDL) was set at 1-2 mg kg(-1) ww feed (daily dose 0.01-0.02 mg kg BW-1 day(-1)), based on plasma ALAT increase, liver vitamin E depletion, and liver histopathology. For SeMet fed fish, the safe feed limit was higher than for selenite with a BMDL of 2.8 mg kg(-1) ww (dose 0.03 mg kg BW-1 day(-1)), based on liver histopathology and plasma creatinine. In conclusion, with regards to fish health, Atlantic salmon seemed to tolerate the supplementation of selenite or SeMet to a level of total selenium of respectively 1-2 or 3 mg kg(-1) feed, respectively, in a high plant-based salmon feed with background levels of 0.45 mg Se kg(-1). | URI: | http://hdl.handle.net/10553/51694 | ISSN: | 0044-8486 | DOI: | 10.1016/j.aquaculture.2018.06.041 | Fuente: | Aquaculture[ISSN 0044-8486],v. 495, p. 617-630 |
Colección: | Artículos |
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