Benefits of Virgin Coconut Oil in Diet to Colossoma macropomum (Cuvier, 1818)

This study investigated the effects of different dietary levels of virgin coconut oil on growth, body composition, bacterial resistance, and hematology parameters in tambaqui (Colossoma macropomum). Six isolipidic (12% crude lipid) and isonitrogenous (33% CP) diets were formulated adding virgin coco...

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Published inAquaculture nutrition Vol. 2022; pp. 1 - 11
Main Authors do Couto, Márcia Valéria Silva, da Costa Sousa, Natalino, Abe, Higo Andrade, Dias, Joel Artur Rodrigues, Cordeiro, Carlos Alberto Martins, Paixão, Peterson Emmanuel Guimarães, Santos, Thays Brito Reis, dos Santos Cunha, Fernanda, Meneses, Juliana Oliveira, Filho, Ricardo Marques Nogueira, Bomfim, Carol Nunes Costa, Honorato, Cláucia Aparecida, Cardoso, Bruno Trindade, Fujimoto, Rodrigo Yudi
Format Journal Article
LanguageEnglish
Published Oxford Hindawi 19.10.2022
Hindawi Limited
Hindawi-Wiley
Subjects
Anaemia
Biomass
Blood
Body composition
Body condition
Carnitine
Coconut oil
Colossoma macropomum
Condition factor
Diet
Dietary fiber
Experiments
Fatty acids
Fish
Haematology
Lactate
Lipids
Minors
Mortality
Oil
Pathogenic bacteria
Polyethylene
Proteins
Soybean oil
Soybeans
Temperature
Vegetable oils
Weight
United States > US
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Summary:This study investigated the effects of different dietary levels of virgin coconut oil on growth, body composition, bacterial resistance, and hematology parameters in tambaqui (Colossoma macropomum). Six isolipidic (12% crude lipid) and isonitrogenous (33% CP) diets were formulated adding virgin coconut oil (0%, 25%, 50%, 75%, and 100%) as lipid source, replacing the soybean oil. A positive control diet also prepared containing 15% lauric acid (main fatty acid in virgin coconut oil). Triplicate groups of 20 fish were fed twice daily throughout 90 days. Monthly, we evaluated the tambaqui growth performance, weight and biomass gain, specific growth ratio, apparent feeding conversion, relative condition factor, fish weight uniformity, and final survival. At end of experiment, the fish were subjected to bacterial challenge and blood analysis (glucose, lactate, plasmatic protein, and red cell blood). Fish fed 0%, 100% of VCO and lauric acid presented lower growth than fish fed 50% of virgin coconut oil (VCO) which presents the highest biomass (929.8±80.6a) and weight gain (15.4±4.3a) (p<0.05). Furthermore, the fish fed 50% and 75% VCO had an increase on body protein (50 and 58%, respectively) without increase body fat content. The values of triglycerides and cholesterol decreased (242.4±39.1c and 181.5±14.6bc) in fish fed 50% VCO and lauric acid, respectively. After bacterial challenge, a hemolytic anemia occurred in fish submitted to diets containing 100% of soybean oil and 100% of VCO, causing 41.67% and 100% of mortality, respectively. However, fish fed with 25 and 50% of VCO not presented any clinical signs of disease or mortality. In conclusion, dietary inclusion of 50% virgin coconut in substitution to soybean oil as a lipid source in diets for C. macropomum is recommended to improve the growth performance, body protein, and resistance against pathogenic bacteria Aeromonas hydrophila.
ISSN:1353-5773
1365-2095
DOI:10.1155/2022/4387692