Dietary supplementation of heat-treated Gracilaria and Ulva seaweeds enhanced acute hypoxia tolerance in gilthead sea bream (Sparus aurata)

Dietary supplementation of heat-treated Gracilaria and Ulva seaweeds enhanced acute hypoxia tolerance in gilthead sea bream (Sparus aurata)

Intensive aquaculture practices involve rearing fish at high densities. In these conditions, fish may be exposed to suboptimal dissolved O2 levels with an increased formation of reactive O2 species (ROS) in tissues. Seaweeds (SW) contain biologically active substances with efficient antioxidant capacities. This study evaluated the effects of dietary supplementation of heat-treated SW (5% Gracilaria vermiculophylla or 5% Ulva lactuca) on stress bioindicators in sea bream subjected to a hypoxic challenge. 168 fish (104.5 g average weight) were distributed in 24 tanks, in which eight tanks were fed one of three experimental diets for 34 days: (i) a control diet without SW supplementation, (ii) a control diet supplemented with Ulva, or (iii) a control diet with Gracilaria. Thereafter, fish from 12 tanks (n=4 tanks/dietary treatment) were subjected to 24 h hypoxia (1.3 mg O2 l-1) and subsequent recovery normoxia (8.6 mg O2 l-1). Hypoxic fish showed an increase in hematocrit values regardless of dietary treatment. Dietary modulation of the O2-carrying capacity was conspicuous during recovery, as fish fed SW supplemented diets displayed significantly higher haemoglobin concentration than fish fed the control diet. After the challenge, survival rates in both groups of fish fed SW were higher, which was consistent with a decrease in hepatic lipid peroxidation in these groups. Furthermore, the hepatic antioxidant enzyme activities were modulated differently by changes in environmental O2 condition, particularly in sea bream fed the Gracilaria diet. After being subjected to hypoxia, the gene expression of antioxidant enzymes and molecular chaperones in liver and heart were down regulated in sea bream fed SW diets. This study suggests that the antioxidant properties of heat-treated SW may have a protective role against oxidative stress. The nature of these compounds and possible mechanisms implied are currently being investigated.

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Main Authors: Magnoni, Leonardo J., Martos-Sitcha, Juan Antonio, Queiroz, Augusto, Calduch-Giner, Josep Alvar, Gonçalves, Jose Fernando Magalhaes, Rocha, Cristina M.R., Abreu, Helena T., Schrama, Johan W., Ozorio, Rodrigo O.A., Perez-Sanchez, Jaume
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Hypoxia, Nutritional background, Oxidative stress, Sea bream, Seaweeds,
Online Access:https://research.wur.nl/en/publications/dietary-supplementation-of-heat-treated-gracilaria-and-ulva-seawe
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spelling dig-wur-nl-wurpubs-5238002024-10-02 Magnoni, Leonardo J. Martos-Sitcha, Juan Antonio Queiroz, Augusto Calduch-Giner, Josep Alvar Gonçalves, Jose Fernando Magalhaes Rocha, Cristina M.R. Abreu, Helena T. Schrama, Johan W. Ozorio, Rodrigo O.A. Perez-Sanchez, Jaume Article/Letter to editor Biology Open 6 (2017) 6 ISSN: 2046-6390 Dietary supplementation of heat-treated Gracilaria and Ulva seaweeds enhanced acute hypoxia tolerance in gilthead sea bream (Sparus aurata) 2017 Intensive aquaculture practices involve rearing fish at high densities. In these conditions, fish may be exposed to suboptimal dissolved O2 levels with an increased formation of reactive O2 species (ROS) in tissues. Seaweeds (SW) contain biologically active substances with efficient antioxidant capacities. This study evaluated the effects of dietary supplementation of heat-treated SW (5% Gracilaria vermiculophylla or 5% Ulva lactuca) on stress bioindicators in sea bream subjected to a hypoxic challenge. 168 fish (104.5 g average weight) were distributed in 24 tanks, in which eight tanks were fed one of three experimental diets for 34 days: (i) a control diet without SW supplementation, (ii) a control diet supplemented with Ulva, or (iii) a control diet with Gracilaria. Thereafter, fish from 12 tanks (n=4 tanks/dietary treatment) were subjected to 24 h hypoxia (1.3 mg O2 l-1) and subsequent recovery normoxia (8.6 mg O2 l-1). Hypoxic fish showed an increase in hematocrit values regardless of dietary treatment. Dietary modulation of the O2-carrying capacity was conspicuous during recovery, as fish fed SW supplemented diets displayed significantly higher haemoglobin concentration than fish fed the control diet. After the challenge, survival rates in both groups of fish fed SW were higher, which was consistent with a decrease in hepatic lipid peroxidation in these groups. Furthermore, the hepatic antioxidant enzyme activities were modulated differently by changes in environmental O2 condition, particularly in sea bream fed the Gracilaria diet. After being subjected to hypoxia, the gene expression of antioxidant enzymes and molecular chaperones in liver and heart were down regulated in sea bream fed SW diets. This study suggests that the antioxidant properties of heat-treated SW may have a protective role against oxidative stress. The nature of these compounds and possible mechanisms implied are currently being investigated. en application/pdf https://research.wur.nl/en/publications/dietary-supplementation-of-heat-treated-gracilaria-and-ulva-seawe 10.1242/bio.024299 https://edepot.wur.nl/418928 Hypoxia Nutritional background Oxidative stress Sea bream Seaweeds https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Hypoxia
Nutritional background
Oxidative stress
Sea bream
Seaweeds
Hypoxia
Nutritional background
Oxidative stress
Sea bream
Seaweeds
spellingShingle Hypoxia
Nutritional background
Oxidative stress
Sea bream
Seaweeds
Hypoxia
Nutritional background
Oxidative stress
Sea bream
Seaweeds
Magnoni, Leonardo J.
Martos-Sitcha, Juan Antonio
Queiroz, Augusto
Calduch-Giner, Josep Alvar
Gonçalves, Jose Fernando Magalhaes
Rocha, Cristina M.R.
Abreu, Helena T.
Schrama, Johan W.
Ozorio, Rodrigo O.A.
Perez-Sanchez, Jaume
Dietary supplementation of heat-treated Gracilaria and Ulva seaweeds enhanced acute hypoxia tolerance in gilthead sea bream (Sparus aurata)
description Intensive aquaculture practices involve rearing fish at high densities. In these conditions, fish may be exposed to suboptimal dissolved O2 levels with an increased formation of reactive O2 species (ROS) in tissues. Seaweeds (SW) contain biologically active substances with efficient antioxidant capacities. This study evaluated the effects of dietary supplementation of heat-treated SW (5% Gracilaria vermiculophylla or 5% Ulva lactuca) on stress bioindicators in sea bream subjected to a hypoxic challenge. 168 fish (104.5 g average weight) were distributed in 24 tanks, in which eight tanks were fed one of three experimental diets for 34 days: (i) a control diet without SW supplementation, (ii) a control diet supplemented with Ulva, or (iii) a control diet with Gracilaria. Thereafter, fish from 12 tanks (n=4 tanks/dietary treatment) were subjected to 24 h hypoxia (1.3 mg O2 l-1) and subsequent recovery normoxia (8.6 mg O2 l-1). Hypoxic fish showed an increase in hematocrit values regardless of dietary treatment. Dietary modulation of the O2-carrying capacity was conspicuous during recovery, as fish fed SW supplemented diets displayed significantly higher haemoglobin concentration than fish fed the control diet. After the challenge, survival rates in both groups of fish fed SW were higher, which was consistent with a decrease in hepatic lipid peroxidation in these groups. Furthermore, the hepatic antioxidant enzyme activities were modulated differently by changes in environmental O2 condition, particularly in sea bream fed the Gracilaria diet. After being subjected to hypoxia, the gene expression of antioxidant enzymes and molecular chaperones in liver and heart were down regulated in sea bream fed SW diets. This study suggests that the antioxidant properties of heat-treated SW may have a protective role against oxidative stress. The nature of these compounds and possible mechanisms implied are currently being investigated.
format Article/Letter to editor
topic_facet Hypoxia
Nutritional background
Oxidative stress
Sea bream
Seaweeds
author Magnoni, Leonardo J.
Martos-Sitcha, Juan Antonio
Queiroz, Augusto
Calduch-Giner, Josep Alvar
Gonçalves, Jose Fernando Magalhaes
Rocha, Cristina M.R.
Abreu, Helena T.
Schrama, Johan W.
Ozorio, Rodrigo O.A.
Perez-Sanchez, Jaume
author_facet Magnoni, Leonardo J.
Martos-Sitcha, Juan Antonio
Queiroz, Augusto
Calduch-Giner, Josep Alvar
Gonçalves, Jose Fernando Magalhaes
Rocha, Cristina M.R.
Abreu, Helena T.
Schrama, Johan W.
Ozorio, Rodrigo O.A.
Perez-Sanchez, Jaume
author_sort Magnoni, Leonardo J.
title Dietary supplementation of heat-treated Gracilaria and Ulva seaweeds enhanced acute hypoxia tolerance in gilthead sea bream (Sparus aurata)
title_short Dietary supplementation of heat-treated Gracilaria and Ulva seaweeds enhanced acute hypoxia tolerance in gilthead sea bream (Sparus aurata)
title_full Dietary supplementation of heat-treated Gracilaria and Ulva seaweeds enhanced acute hypoxia tolerance in gilthead sea bream (Sparus aurata)
title_fullStr Dietary supplementation of heat-treated Gracilaria and Ulva seaweeds enhanced acute hypoxia tolerance in gilthead sea bream (Sparus aurata)
title_full_unstemmed Dietary supplementation of heat-treated Gracilaria and Ulva seaweeds enhanced acute hypoxia tolerance in gilthead sea bream (Sparus aurata)
title_sort dietary supplementation of heat-treated gracilaria and ulva seaweeds enhanced acute hypoxia tolerance in gilthead sea bream (sparus aurata)
url https://research.wur.nl/en/publications/dietary-supplementation-of-heat-treated-gracilaria-and-ulva-seawe
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