Abstract
The increasing global population and the simultaneous growing attention to natural, sustainable, and healthier products are driving the food industry towards research on alternative food sources. In this scenario, microalgae are gaining worldwide attention as “functional feedstocks” for foods, feeds, supplements, and nutraceutical formulations, being a source of high-value metabolites including polyphenols and other antioxidant compounds. In this work, eleven microalgal strains from freshwater environments were evaluated for their nutraceutical properties, focusing on photosynthetic pigments, total polyphenols, and flavonoid content, as well as in vitro antioxidant activities. Data helped to select those strains showing the most promising features for simultaneous massive growth and bioactive compound production. Results highlighted that the microalgae have variable values for both biochemical parameters and antioxidant activities, mainly depending on the solvents and applied treatment rather than on the isolation sources or the phylogenetic attribution. According to our results, the putative best candidates for massive cultivation under laboratory conditions for the simultaneous extraction of different molecules with nutraceutical potential are strains F1 (Scenedesmaceae), F3 (Chlamydomonas debariana), R1 (Chlorella sorokiniana), and C2 (Chlorella-like).
Highlights
Considering all eleven microalgae used in this work, six strains were taxonomically related to Chlorella sorokiniana
Fucecchio Marshland were attributed to Chlamydomonas debaryana species (F2 and F3), SEC_Li_ChL_1 and C2 were two Chlorella-like strains from Rosignano Marittimo and from a private house in Empoli, respectively, while strain F1 from the Fucecchio Marshland belonged to the Scenedesmaceae family
Our study aims at achieving the same objective, starting with the individuation of one or a few putative new microalgal candidates, isolated and characterized by natural local environments, to be potentially used in microalgal-based functional foods and pharmaceutical formulations
Summary
This work aimed to select those showing the most promising features for simultaneous massive growth and bioactive compound production
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
