Supercritical CO2 extraction of carotenoids from high Andean forest bee pollen

An oily bee pollen extract was obtained using the supercritical fluid technique (SFE) using CO2 as a solvent and conditions of pressure: 28 MPa, temperature: 60°C, gas flow: 5 L/min, and duration: 6 h. Initially, pollen samples were collected from different municipalities of Colombia, selected, and...

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Bibliographic Details
Published in:The Journal of supercritical fluids 2024-07, Vol.209, p.106236, Article 106236
Main Authors: Viloria-Pérez, Natalia, Camargo-Ovalle, Lady Viviana, Rodríguez-Varela, Luis I., Díaz-Moreno, Consuelo, Suárez-Mahecha, Héctor
Format: Article
Language:English
Subjects:
Bioactive compounds
Color
Functional Foods
Nutraceutical
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Summary:An oily bee pollen extract was obtained using the supercritical fluid technique (SFE) using CO2 as a solvent and conditions of pressure: 28 MPa, temperature: 60°C, gas flow: 5 L/min, and duration: 6 h. Initially, pollen samples were collected from different municipalities of Colombia, selected, and analyzed according to the content of total carotenoids (CCT) and yield of the extraction process. The results show CCT between 119 and 2140 µg β-carotene/g of sample, with yield percentages in obtaining oily extracts between 3 – 5%. For CCT in the oily extract, 385–6942 µg β-carotene/g of extract were obtained, where Guatavita pollen was the one with the highest content. According to the investigation, the authors derived that the technique of SFE positively affected the exine layer, shown in the observations by Scanning Electron Microscopy (SEM). [Display omitted] •Application of supercritical fluids to obtain carotenoids of red bee pollen.•Extract rich in carotenoids is a substitute for antioxidant and colors additives synthetic.•Opportunity to create new functional ingredients for healthy food production.
ISSN:0896-8446
1872-8162
DOI:10.1016/j.supflu.2024.106236