Microalgae as a safe food source for animals: nutritional characteristics of the acidophilic microalga Coccomyxa onubensis
Engelsk titel: Microalgae as a safe food source for animals: nutritional characteristics of the acidophilic microalga Coccomyxa onubensis
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Författare:
Navarro, Francisco
;
Forján, Eduardo
;
Vázquez, María
;
Montero, Zaida
;
Bermejo, Elisabeth
;
Castaño, Miguel Ángel
;
Toimil, Alberto
;
Chagüaceda, Enrique
;
García-Sevillano, Miguel Angel
;
Sánchez, Marisa
;
Domínguez, María José
;
Pásaro, Rosario
;
Garbayo, Inés
;
Vílchez, Carlos
;
Vega, José María
Email: cvilchez@uhu.es
Språk: Eng
Antal referenser: 40
Dokumenttyp:
Artikel
UI-nummer: 17050119
Sammanfattning
Background: Edible microalgae are marine or fresh water mesophilic species. Although the harvesting of
microalgae offers an abundance of opportunities to the food and pharmaceutical industries, the possibility to
use extremophilic microalgae as a food source for animals is not well-documented.
Objective: We studied the effects of dietary supplementation of a powdered form of the acidophilic microalga
Coccomyxa onubensis on growth and health parameters of laboratory rats.
Method: Four randomly organized groups of rats (n6) were fed a standard diet (Diet 1, control) or with
a diet in which 0.4% (Diet 2), 1.25% (Diet 3), or 6.25% (Diet 4) (w/w) of the standard diet weight was
substituted with dried microalgae powder, respectively. The four groups of animals were provided ad libitum
access to feed for 45 days.
Results: C. onubensis biomass is rich in protein (44.60% of dry weight) and dietary fiber (15.73%), and has a
moderate carbohydrate content (24.8%) and a low lipid content (5.4%) in which polyunsaturated fatty acids
represent 65% of the total fatty acid. Nucleic acids are present at 4.8%. No significant difference was found in
growth rates or feed efficiency ratios of the four groups of rats. Histological studies of liver and kidney tissue
revealed healthy organs in control and C. onubensis-fed animals, while plasma hematological and biochemical
parameters were within healthy ranges for all animals. Furthermore, animals fed a microalgae-enriched
diet exhibited a statistically significant decrease in both blood cholesterol and triglyceride levels. The blood
triglyceride content and very low density lipoprotein-cholesterol levels decreased by about 50% in rats
fed Diet 4.
Conclusions: These data suggest that C. onubensis may be useful as a food supplement for laboratory animals
and may also serve as a nutraceutical in functional foods. In addition, microalgae powder-supplemented diets
exerted a significant hypocholesterolemic and hypotriglyceridemic effect in animals.