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Influence of Different Light Sources on the Biochemical Composition of Arthrospira spp. Grown in Model Systems

Massimo Milia, Francesco Corrias, Piero Addis, Graziella Chini Zitelli, Bernardo Cicchi, Giuseppe Torzillo, Valeria Andreotti, Alberto Angioni

2022Foods27 citationsDOIOpen Access PDF

Abstract

Arthrospira platensis and Arthrospira maxima are prokaryotic microalgae commercially marketed as spirulina. The pigments extracted from these algae are widely used for cosmetic and nutraceutical applications. This work aimed to evaluate the influence of three light-emitting lamps (white, orange and blue) on the growth and biomass composition of two strains of A. platensis (M2 and M2M) and one of A. maxima. The obtained data show strain- and light-dependent responses of the microalgae. In addition, white and orange lights led to a similar overall effect by increasing the levels of chlorophyll a and carotenoids. However, exposure to orange light resulted in the highest dry weight (5973.3 mg L−1 in M2M), whereas white light stimulated an increase in the carbohydrate fraction (up to 42.36 g 100 g−1 in A. maxima). Conversely, blue light led to a constant increase in the concentration of phycocyanin (14 g 100 g−1 in A. maxima) and a higher content of proteins in all strains. These results provide important environmental information for modulating the growth of different spirulina strains, which can be used to address the synthesis of biochemical compounds of strategic importance for the development of new nutraceutical foods.

Topics & Concepts

PhycocyaninArthrospiraNutraceuticalSpirulina (dietary supplement)Food scienceCarotenoidOrange (colour)ChlorophyllChlorophyll aPigmentBotanyPhycoerythrinCyanobacteriaChemistryBiologyRaw materialEcologyBacteriaOrganic chemistryGeneticsFlow cytometryAlgal biology and biofuel productionAquatic Ecosystems and Phytoplankton Dynamics
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