Evaluation of IAurantiochytrium mangrovei/I Biomass Grown on Digestate as a Sustainable Feed Ingredient of Sea Bass, IDicentrarchus labrax/I, Juveniles and Larvae

Evaluation of IAurantiochytrium mangrovei/I Biomass Grown on Digestate as a Sustainable Feed Ingredient of Sea Bass, IDicentrarchus labrax/I, Juveniles and Larvae

The use of microalgae as a sustainable source of n-3 long-chain polyunsaturated fatty acids (LC-PUFA) as an alternative to fish oils from small pelagic fish (e.g., anchovy, sardine) has received growing interest in the past few years. The present study aimed to: (i) produce Aurantiochytrium mangrove...

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Veröffentlicht in:Sustainability 2022-11, Vol.14 (21)
Hauptverfasser: Soudant, Philippe, Ventura, Mariana, Chauchat, Luc, Guerreiro, Maurean, Mathieu-Resuge, Margaux, Le Grand, Fabienne, Simon, Victor, Collet, Sophie, Zambonino-Infante, José-Luis, Le Goïc, Nelly, Lambert, Christophe, Fernandes, Fleuriane, Silkina, Alla, de Souza, Marcella Fernandes, de la Broise, Denis
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Analysis
Feed industry
Fermentation
Proteins
Unsaturated fatty acids
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container_end_page
container_issue 21
container_start_page
container_title Sustainability
container_volume 14
creator Soudant, Philippe
Ventura, Mariana
Chauchat, Luc
Guerreiro, Maurean
Mathieu-Resuge, Margaux
Le Grand, Fabienne
Simon, Victor
Collet, Sophie
Zambonino-Infante, José-Luis
Le Goïc, Nelly
Lambert, Christophe
Fernandes, Fleuriane
Silkina, Alla
de Souza, Marcella Fernandes
de la Broise, Denis
description The use of microalgae as a sustainable source of n-3 long-chain polyunsaturated fatty acids (LC-PUFA) as an alternative to fish oils from small pelagic fish (e.g., anchovy, sardine) has received growing interest in the past few years. The present study aimed to: (i) produce Aurantiochytrium mangrovei biomass by heterotrophic fermentation using a medium containing anaerobic digestion liquid effluent, and (ii) evaluate a biomass rich in n-3 LC-PUFA and good quality proteins as a feed ingredient for sea bass juveniles and larvae. Two 800 L bioreactors were used to produce Aurantiochytrium biomass in non-axenic conditions. Biomass was then filtered through a crossflow filtration system (300 Kda ceramic membrane) and freeze-dried. Sea bass juveniles (32.7 ± 4.2 g) were fed both a control diet and a diet containing 15% of freeze-dried A. mangrovei biomass for 38 days. Juvenile survival percentage was 90% on average in both dietary conditions. Similar growth was observed between fish fed with both diets, demonstrating the feasibility to replace 15% of a standard fish feed by Aurantiochytrium biomass. The liver of sea bass juveniles fed with the A. mangrovei diet contained significantly higher proportions of 22:6n-3, 22:5n-6, and 20:4n-6 than those fed with the control diet, while the proportions of 16:0, 16:1n-7, and 18:1n-9 were significantly lower. The secondary oxidation, as measured by malonylaldehyde (MDA) content, in the liver and muscle of juveniles fed with the microalgae diet tended to be higher than in fish fed the control diet, but the differences were not statistically significant. Although the larvae survival percentage was low for all the tanks after 41 days of rearing, the inclusion of 15% of hydrolyzed A. mangrovei biomass in the larvae micro-diet did not impair the development of sea bass larvae and only marginally affected their lipid composition. In the future, we have to further optimize a sustainable workflow between Aurantiochytrium cultivation and fish feed production and confirm the zootechnical and biochemical results.
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The present study aimed to: (i) produce Aurantiochytrium mangrovei biomass by heterotrophic fermentation using a medium containing anaerobic digestion liquid effluent, and (ii) evaluate a biomass rich in n-3 LC-PUFA and good quality proteins as a feed ingredient for sea bass juveniles and larvae. Two 800 L bioreactors were used to produce Aurantiochytrium biomass in non-axenic conditions. Biomass was then filtered through a crossflow filtration system (300 Kda ceramic membrane) and freeze-dried. Sea bass juveniles (32.7 ± 4.2 g) were fed both a control diet and a diet containing 15% of freeze-dried A. mangrovei biomass for 38 days. Juvenile survival percentage was 90% on average in both dietary conditions. Similar growth was observed between fish fed with both diets, demonstrating the feasibility to replace 15% of a standard fish feed by Aurantiochytrium biomass. The liver of sea bass juveniles fed with the A. mangrovei diet contained significantly higher proportions of 22:6n-3, 22:5n-6, and 20:4n-6 than those fed with the control diet, while the proportions of 16:0, 16:1n-7, and 18:1n-9 were significantly lower. The secondary oxidation, as measured by malonylaldehyde (MDA) content, in the liver and muscle of juveniles fed with the microalgae diet tended to be higher than in fish fed the control diet, but the differences were not statistically significant. Although the larvae survival percentage was low for all the tanks after 41 days of rearing, the inclusion of 15% of hydrolyzed A. mangrovei biomass in the larvae micro-diet did not impair the development of sea bass larvae and only marginally affected their lipid composition. In the future, we have to further optimize a sustainable workflow between Aurantiochytrium cultivation and fish feed production and confirm the zootechnical and biochemical results.</abstract><pub>MDPI AG</pub><doi>10.3390/su142114573</doi></addata></record>
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source MDPI - Multidisciplinary Digital Publishing Institute; EZB-FREE-00999 freely available EZB journals
subjects Analysis
Feed industry
Fermentation
Proteins
Unsaturated fatty acids
title Evaluation of IAurantiochytrium mangrovei/I Biomass Grown on Digestate as a Sustainable Feed Ingredient of Sea Bass, IDicentrarchus labrax/I, Juveniles and Larvae
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