Litcius/Paper detail

Growth and Biochemical Composition Characteristics of Arthrospira platensis Induced by Simultaneous Nitrogen Deficiency and Seawater-Supplemented Medium in an Outdoor Raceway Pond in Winter

Hualian Wu, Tao Li, Jinting Lv, Zishuo Chen, Jiayi Wu, Na Wang, Houbo Wu, Wenzhou Xiang

2021Foods25 citationsDOIOpen Access PDF

Abstract

Arthrospira platensis, a well-known cyanobacterium, is widely applied not only in human and animal nutrition but also in cosmetics for its high amounts of active products. The biochemical composition plays a key role in the application performance of the Arthrospira biomass. The present study aimed to evaluate the growth and biochemical composition characteristics of A. platensis, cultured with a nitrogen-free and seawater-supplemented medium in an outdoor raceway pond in winter. The results showed that the biomass yield could achieve 222.42 g m−2, and the carbohydrate content increased by 247% at the end of the culture period (26 d), compared with that of the starter culture. The daily and annual areal productivities were 3.96 g m−2 d−1 and 14.44 ton ha−1 yr−1 for biomass and 2.88 g m−2 d−1 and 10.53 ton ha−1 yr−1 for carbohydrates, respectively. On the contrary, a profound reduction was observed in protein, lipid, and pigment contents. Glucose, the main monosaccharide in the A. platensis biomass, increased from 77.81% to 93.75% of total monosaccharides. Based on these results, large-scale production of carbohydrate-rich A. platensis biomass was achieved via a low-cost culture, involving simultaneous nitrogen deficiency and supplementary seawater in winter.

Topics & Concepts

ArthrospiraBiomass (ecology)Food scienceCarbohydrateComposition (language)NitrogenSeawaterMonosaccharideBiologyBotanyChemistryAnimal scienceCyanobacteriaBiochemistryEcologyBacteriaLinguisticsGeneticsPhilosophyOrganic chemistryAlgal biology and biofuel productionAquatic Ecosystems and Phytoplankton DynamicsMarine and coastal ecosystems