TY - JOUR
T1 - Physical processing or supplementation of feeds with phytogenic compounds, alginate oligosaccharide or nucleotides as methods to improve the utilization of Gracilaria gracilis by juvenile European seabass (Dicentrarchus labrax)
AU - Valente, Luisa M. P.
AU - Batista, Sónia
AU - Ribeiro, Catarina
AU - Pereira, Ricardo
AU - Oliveira, Beatriz
AU - Garrido, Inês
AU - Baião, Luís F.
AU - Tulli, Francesa
AU - Messina, Maria
AU - Pierre, Ronan
AU - Abreu, Helena
AU - Pintado, Manuela
AU - Kiron, Viswanath
N1 - Funding Information:
Authors acknowledge Aurora F. Silva for the collaboration in the algae technological processing. Work supported by Project “MARINALGAE4AQUA–Improving bio-utilisation of marine algae as sustainable feed ingredients to increase efficiency and quality of aquaculture production”, financed by FCT-Portugal and ANR-France through the research project ERA-NET COFASP/004/2015 . We would also like to acknowledge FCT-Portugal funding within the scope of UIDB/04423/2020 , UIDP/04423/2020 and UID/Multi/50016/2019 to CIIMAR.
Funding Information:
Authors acknowledge Aurora F. Silva for the collaboration in the algae technological processing. Work supported by Project ?MARINALGAE4AQUA?Improving bio-utilisation of marine algae as sustainable feed ingredients to increase efficiency and quality of aquaculture production?, financed by FCT-Portugal and ANR-France through the research project ERA-NET COFASP/004/2015. We would also like to acknowledge FCT-Portugal funding within the scope of UIDB/04423/2020, UIDP/04423/2020 and UID/Multi/50016/2019 to CIIMAR. Some Tables and Figures contain data reprinted/adapted by permission from Springer Nature Customer Service Centre GmbH: Springer Nature Journal of Applied Phycology, Exploring the potential of seaweed Gracilaria gracilis and microalga Nannochloropsis oceanica, single or blended, as natural dietary ingredients for European seabass Dicentrarchus labrax. Batista, S. Pereira, R. Oliveira, B. Bai?o, L.F. Jessen, F. Tulli, F. Messina, M. Silva, J.L. Abreu, H. Valente, L.M.P. 2020, J Appl Phycol. 32, 2041-2059. https://nam03.safelinks.protection.outlook.com/?url=https%3A%2F%2Fdoi.org%2F10.1007%2Fs10811-020-02118-z&data=02%7C01%7Cs.vadivelan%40elsevier.com%7C47b55351c8724b22c8e708d86388f119%7C9274ee3f94254109a27f9fb15c10675d%7C0%7C0%7C637368787375166572&sdata=A9lnpUIRfC7VOHe9BMaM0Sf2iCsnf9Fse6dcB%2BebBy0%3D&reserved=0
Publisher Copyright:
© 2020
PY - 2021/1/15
Y1 - 2021/1/15
N2 - This study assessed both the effectiveness of a physical-mechanical rupture method and the ability of feed additives (phytogenic compounds, alginate oligosaccharide and nucleotides) to enhance the utilization of G. gracilis by European seabass. A commercial-based diet was used as control diet (CTRL) and compared with five isoproteic (53.5% Dry matter, DM) and isolipidic (14.9% DM) diets containing 8% of G. gracilis. This seaweed was either unprocessed (diet GRA) or subjected to physical processing (diet GRAP). The three additive-containing diets were formulated by supplementing the GRA diet with either 0.02% phytogenic compounds (PHY), 2.5% oligo-alginate (OAS) or 0.08% free nucleotides (NUC). Triplicate groups of nineteen fish (29.7 ± 0.02 g) were distributed by 50 L tanks (11.3 kg m−3) and fed the experimental diets to satiety during 106 days. By the end of the trial, growth performance and nutrient utilization (specific growth ratio, feed conversion ratio, apparent digestibility coefficients, nutrient balance, intestinal brush border membrane enzyme activities and plasma metabolic parameters), gut histomorphology, antioxidant and immunological status of fish were evaluated. The ability of fish to digest seaweed-rich diets was largely improved by the technological processing of G. gracilis, albeit nil effect on fish specific growth rate (1.0 in all groups). This major achievement was associated with increased ability of GRAP to digest protein (84 vs 68% in GRA) and energy (64 vs 38% in GRA). The use of feed additives in Gracilaria-rich diets was less efficacious in improving European sea bass nutrient and energy ADCs, but have still improved the overall digestibility of those diets. Fish fed alginate oligosaccharide was mainly associated with increased activity of anterior intestine enzymes, particularly intestinal alkaline phosphatase (IAP; 174.4 vs 104.7–120.6 μm min−1 g−1 in Gracilaria-rich diets). Moreover, the algae technological processing and both the nucleotides and the alginate oligosaccharide seem to have positively affected the intestinal villus width compared to the negative impact seen in fish fed GRA. The tested additives had limited impact on oxidative stress, although glutathione peroxidase (GPx; 2.1 μmol min−1 mg protein−1) and catalase (CAT; 35 μmol min−1 mg protein−1) activities were lowest in fish fed NUC and PHY, respectively. It can be concluded that the physical processing of Gracilaria sp. or the addition of either oligo-alginate or nucleotides can effectively increase the nutritional value of this seaweed for European seabass diets.
AB - This study assessed both the effectiveness of a physical-mechanical rupture method and the ability of feed additives (phytogenic compounds, alginate oligosaccharide and nucleotides) to enhance the utilization of G. gracilis by European seabass. A commercial-based diet was used as control diet (CTRL) and compared with five isoproteic (53.5% Dry matter, DM) and isolipidic (14.9% DM) diets containing 8% of G. gracilis. This seaweed was either unprocessed (diet GRA) or subjected to physical processing (diet GRAP). The three additive-containing diets were formulated by supplementing the GRA diet with either 0.02% phytogenic compounds (PHY), 2.5% oligo-alginate (OAS) or 0.08% free nucleotides (NUC). Triplicate groups of nineteen fish (29.7 ± 0.02 g) were distributed by 50 L tanks (11.3 kg m−3) and fed the experimental diets to satiety during 106 days. By the end of the trial, growth performance and nutrient utilization (specific growth ratio, feed conversion ratio, apparent digestibility coefficients, nutrient balance, intestinal brush border membrane enzyme activities and plasma metabolic parameters), gut histomorphology, antioxidant and immunological status of fish were evaluated. The ability of fish to digest seaweed-rich diets was largely improved by the technological processing of G. gracilis, albeit nil effect on fish specific growth rate (1.0 in all groups). This major achievement was associated with increased ability of GRAP to digest protein (84 vs 68% in GRA) and energy (64 vs 38% in GRA). The use of feed additives in Gracilaria-rich diets was less efficacious in improving European sea bass nutrient and energy ADCs, but have still improved the overall digestibility of those diets. Fish fed alginate oligosaccharide was mainly associated with increased activity of anterior intestine enzymes, particularly intestinal alkaline phosphatase (IAP; 174.4 vs 104.7–120.6 μm min−1 g−1 in Gracilaria-rich diets). Moreover, the algae technological processing and both the nucleotides and the alginate oligosaccharide seem to have positively affected the intestinal villus width compared to the negative impact seen in fish fed GRA. The tested additives had limited impact on oxidative stress, although glutathione peroxidase (GPx; 2.1 μmol min−1 mg protein−1) and catalase (CAT; 35 μmol min−1 mg protein−1) activities were lowest in fish fed NUC and PHY, respectively. It can be concluded that the physical processing of Gracilaria sp. or the addition of either oligo-alginate or nucleotides can effectively increase the nutritional value of this seaweed for European seabass diets.
KW - Algae nutrient bioavailability
KW - Cell disruption methods
KW - Digestive enzymes
KW - Feed additives
KW - Intestinal morphology
UR - http://www.scopus.com/inward/record.url?scp=85091945483&partnerID=8YFLogxK
U2 - 10.1016/j.aquaculture.2020.735914
DO - 10.1016/j.aquaculture.2020.735914
M3 - Article
AN - SCOPUS:85091945483
SN - 0044-8486
VL - 530
SP - 1
EP - 14
JO - Aquaculture
JF - Aquaculture
M1 - 735914
ER -