Microalgal Schizochytrium limacinum Biomass Improves Growth and Filet Quality When Used Long-Term as a Replacement for Fish Oil, in Modern Salmon Diets

Aquaculture contributes to global food security but sustainable aquaculture development in terms of biodiversity impacts requires the establishment of viable solutions in replacement of the fisheries-based components in aquafeeds. In the current work, pit-tagged Atlantic salmon individuals were grow...

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Main Authors: Kousoulaki, Katerina, Berge, Gerd Marit, Mørkøre, Turid, Krasnov, Aleksei, Bæverfjord, Grete, Ytrestøyl, Trine, Carlehög, Mats, Sweetman, John, Ruyter, Bente
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
Slaughter
Atlantic salmon
Online Access:https://hdl.handle.net/11250/2646556
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spelling ftnofima:oai:nofima.brage.unit.no:11250/2646556 2023-05-15T15:33:02+02:00 Microalgal Schizochytrium limacinum Biomass Improves Growth and Filet Quality When Used Long-Term as a Replacement for Fish Oil, in Modern Salmon Diets Kousoulaki, Katerina Berge, Gerd Marit Mørkøre, Turid Krasnov, Aleksei Bæverfjord, Grete Ytrestøyl, Trine Carlehög, Mats Sweetman, John Ruyter, Bente 2020 application/pdf https://hdl.handle.net/11250/2646556 eng eng Fiskeri- og havbruksnæringens forskningsfinansiering: 901037 Norges forskningsråd: 234057 Nofima AS: 11230 Nofima AS: 10793 Nofima AS: 10269 Frontiers in Marine Science. 2020, . urn:issn:2296-7745 https://hdl.handle.net/11250/2646556 cristin:1799630 22 Frontiers in Marine Science Peer reviewed Journal article 2020 ftnofima 2022-11-18T06:51:10Z Aquaculture contributes to global food security but sustainable aquaculture development in terms of biodiversity impacts requires the establishment of viable solutions in replacement of the fisheries-based components in aquafeeds. In the current work, pit-tagged Atlantic salmon individuals were grown, from fresh water (18 g body weight) to salt water in tanks (up to 800 g body weight), on diets with low fish meal (FM) (10%) and 1–1.25% total n-3 LC-PUFA levels balanced across the experimental diets. Dietary n-3 LC-PUFAs were supplemented by (1) fish oil (FO), (2) Schizochytrium limacinum biomass (ScB), or (3) a mix of the two (FO/ScB). Further, the fish from all treatments were mixed and redistributed in sea cages reared to slaughter (ca. 3 kg body weight) on either FO or ScB. As FO was rich in both EPA and DHA and ScB was rich in DHA and nearly devoid of EPA, the experimental diets differed significantly in DHA/EPA ratio (0.8 vs. 10.5 in average for FO and ScB, respectively). ScB treatment fish grew to significantly higher body weight in the end of the experiment (2.8 kg vs. 3.3 kg, for FO and ScB, respectively) but similar FCR, survival rate, and biometric indexes compared to the FO groups. ScB fish contained higher levels of EPA + DHA in the filet but lower in the liver, and better filet pigmentation already from the tank phase of the experiment as determined chemically, by salmonfan and a trained sensory panel, and lower prevalence of melanin spots at slaughter. The trained sensory panel found no differences in flavor or odor in the filets from the different dietary groups; however, filets in the FO group were perceived as softer and juicier compared to ScB. The pre-diets up to 800 g body weight had minor effects on fish performance. Global transcriptomics in liver and intestinal tissues revealed significant dietary effects on the expression of immune modulating, as well as ion, lipid, protein, and xenobiotic metabolism genes. publishedVersion Article in Journal/Newspaper Atlantic salmon Nofima Knowledge Archive (Brage) Slaughter ENVELOPE(-85.633,-85.633,-78.617,-78.617)
institution Open Polar
collection Nofima Knowledge Archive (Brage)
op_collection_id ftnofima
language English
description Aquaculture contributes to global food security but sustainable aquaculture development in terms of biodiversity impacts requires the establishment of viable solutions in replacement of the fisheries-based components in aquafeeds. In the current work, pit-tagged Atlantic salmon individuals were grown, from fresh water (18 g body weight) to salt water in tanks (up to 800 g body weight), on diets with low fish meal (FM) (10%) and 1–1.25% total n-3 LC-PUFA levels balanced across the experimental diets. Dietary n-3 LC-PUFAs were supplemented by (1) fish oil (FO), (2) Schizochytrium limacinum biomass (ScB), or (3) a mix of the two (FO/ScB). Further, the fish from all treatments were mixed and redistributed in sea cages reared to slaughter (ca. 3 kg body weight) on either FO or ScB. As FO was rich in both EPA and DHA and ScB was rich in DHA and nearly devoid of EPA, the experimental diets differed significantly in DHA/EPA ratio (0.8 vs. 10.5 in average for FO and ScB, respectively). ScB treatment fish grew to significantly higher body weight in the end of the experiment (2.8 kg vs. 3.3 kg, for FO and ScB, respectively) but similar FCR, survival rate, and biometric indexes compared to the FO groups. ScB fish contained higher levels of EPA + DHA in the filet but lower in the liver, and better filet pigmentation already from the tank phase of the experiment as determined chemically, by salmonfan and a trained sensory panel, and lower prevalence of melanin spots at slaughter. The trained sensory panel found no differences in flavor or odor in the filets from the different dietary groups; however, filets in the FO group were perceived as softer and juicier compared to ScB. The pre-diets up to 800 g body weight had minor effects on fish performance. Global transcriptomics in liver and intestinal tissues revealed significant dietary effects on the expression of immune modulating, as well as ion, lipid, protein, and xenobiotic metabolism genes. publishedVersion
format Article in Journal/Newspaper
author Kousoulaki, Katerina
Berge, Gerd Marit
Mørkøre, Turid
Krasnov, Aleksei
Bæverfjord, Grete
Ytrestøyl, Trine
Carlehög, Mats
Sweetman, John
Ruyter, Bente
spellingShingle Kousoulaki, Katerina
Berge, Gerd Marit
Mørkøre, Turid
Krasnov, Aleksei
Bæverfjord, Grete
Ytrestøyl, Trine
Carlehög, Mats
Sweetman, John
Ruyter, Bente
Microalgal Schizochytrium limacinum Biomass Improves Growth and Filet Quality When Used Long-Term as a Replacement for Fish Oil, in Modern Salmon Diets
author_facet Kousoulaki, Katerina
Berge, Gerd Marit
Mørkøre, Turid
Krasnov, Aleksei
Bæverfjord, Grete
Ytrestøyl, Trine
Carlehög, Mats
Sweetman, John
Ruyter, Bente
author_sort Kousoulaki, Katerina
title Microalgal Schizochytrium limacinum Biomass Improves Growth and Filet Quality When Used Long-Term as a Replacement for Fish Oil, in Modern Salmon Diets
title_short Microalgal Schizochytrium limacinum Biomass Improves Growth and Filet Quality When Used Long-Term as a Replacement for Fish Oil, in Modern Salmon Diets
title_full Microalgal Schizochytrium limacinum Biomass Improves Growth and Filet Quality When Used Long-Term as a Replacement for Fish Oil, in Modern Salmon Diets
title_fullStr Microalgal Schizochytrium limacinum Biomass Improves Growth and Filet Quality When Used Long-Term as a Replacement for Fish Oil, in Modern Salmon Diets
title_full_unstemmed Microalgal Schizochytrium limacinum Biomass Improves Growth and Filet Quality When Used Long-Term as a Replacement for Fish Oil, in Modern Salmon Diets
title_sort microalgal schizochytrium limacinum biomass improves growth and filet quality when used long-term as a replacement for fish oil, in modern salmon diets
publishDate 2020
url https://hdl.handle.net/11250/2646556
long_lat ENVELOPE(-85.633,-85.633,-78.617,-78.617)
geographic Slaughter
geographic_facet Slaughter
genre Atlantic salmon
genre_facet Atlantic salmon
op_source 22
Frontiers in Marine Science
op_relation Fiskeri- og havbruksnæringens forskningsfinansiering: 901037
Norges forskningsråd: 234057
Nofima AS: 11230
Nofima AS: 10793
Nofima AS: 10269
Frontiers in Marine Science. 2020, .
urn:issn:2296-7745
https://hdl.handle.net/11250/2646556
cristin:1799630
_version_ 1766363514574733312

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