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W4385873560 abstract "The production of biomolecules by microalgae has a wide range of applications in the development of various materials and products, such as biodiesel, food supplements, and cosmetics. Microalgae biomass can be produced using waste and in a smaller space than other types of crops (e.g., soja, corn), which shows microalgae’s great potential as a source of biomass. Among the produced biomolecules of greatest interest are carbohydrates, proteins, lipids, and fatty acids. In this study, the production of these biomolecules was determined in two strains of microalgae (Chlamydomonas reinhardtii and Chlorella vulgaris) when exposed to different concentrations of nitrogen, phosphorus, and sulfur. Results show a significant microalgal growth (3.69 g L−1) and carbohydrates (163 mg g−1) increase in C. reinhardtii under low nitrogen concentration. Also, higher lipids content was produced under low sulfur concentration (246 mg g−1). It was observed that sulfur variation could affect in a negative way proteins production in C. reinhardtii culture. In the case of C. vulgaris, a higher biomass production was obtained in the standard culture medium (1.37 g L−1), and under a low-phosphorus condition, C. vulgaris produced a higher lipids concentration (248 mg g−1). It was observed that a low concentration of nitrogen had a better effect on the accumulation of fatty acid methyl esters (FAMEs) (C16-C18) in both microalgae. These results lead us to visualize the effects that the variation in macronutrients can have on the growth of microalgae and their possible utility for the production of microalgae-based subproducts." @default.
W4385873560 created "2023-08-17" @default.
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W4385873560 date "2023-08-15" @default.
W4385873560 modified "2023-09-30" @default.
W4385873560 title "Growth Behavior, Biomass Composition and Fatty Acid Methyl Esters (FAMEs) Production Potential of Chlamydomonas reinhardtii, and Chlorella vulgaris Cultures" @default.
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W4385873560 cites W1893136958 @default.
W4385873560 cites W1988034136 @default.
W4385873560 cites W1990319852 @default.
W4385873560 cites W1997034932 @default.
W4385873560 cites W2054401009 @default.
W4385873560 cites W2073671007 @default.
W4385873560 cites W2083399078 @default.
W4385873560 cites W2126854272 @default.
W4385873560 cites W2134783492 @default.
W4385873560 cites W2135024755 @default.
W4385873560 cites W2152311269 @default.
W4385873560 cites W2285715064 @default.
W4385873560 cites W2300552860 @default.
W4385873560 cites W2323863714 @default.
W4385873560 cites W2522800522 @default.
W4385873560 cites W2553628433 @default.
W4385873560 cites W2590906423 @default.
W4385873560 cites W2599718657 @default.
W4385873560 cites W2780892496 @default.
W4385873560 cites W2802803660 @default.
W4385873560 cites W2803766451 @default.
W4385873560 cites W2804003354 @default.
W4385873560 cites W2896716384 @default.
W4385873560 cites W2899389454 @default.
W4385873560 cites W2917469795 @default.
W4385873560 cites W2940501081 @default.
W4385873560 cites W2943716096 @default.
W4385873560 cites W2943745553 @default.
W4385873560 cites W2964071036 @default.
W4385873560 cites W2967314418 @default.
W4385873560 cites W2968801106 @default.
W4385873560 cites W2990955573 @default.
W4385873560 cites W3029254766 @default.
W4385873560 cites W3043599738 @default.
W4385873560 cites W3044712502 @default.
W4385873560 cites W3084427233 @default.
W4385873560 cites W3090630672 @default.
W4385873560 cites W3094677294 @default.
W4385873560 cites W3115109149 @default.
W4385873560 cites W3119934747 @default.
W4385873560 cites W3122404084 @default.
W4385873560 cites W3152785575 @default.
W4385873560 cites W3163317042 @default.
W4385873560 cites W3169284508 @default.
W4385873560 cites W3175268277 @default.
W4385873560 cites W3198605251 @default.
W4385873560 cites W3214048472 @default.
W4385873560 cites W4200002109 @default.
W4385873560 cites W4206218428 @default.
W4385873560 cites W4206900991 @default.
W4385873560 cites W4211169324 @default.
W4385873560 cites W4211229234 @default.
W4385873560 cites W4213046031 @default.
W4385873560 cites W4213385904 @default.
W4385873560 cites W4220745059 @default.
W4385873560 cites W4221013660 @default.
W4385873560 cites W4223445695 @default.
W4385873560 cites W4225277379 @default.
W4385873560 cites W4282561849 @default.
W4385873560 cites W4289523225 @default.
W4385873560 cites W4292716523 @default.
W4385873560 cites W4297236594 @default.
W4385873560 cites W4297250362 @default.
W4385873560 cites W4300816783 @default.
W4385873560 cites W4307402620 @default.
W4385873560 cites W4307873072 @default.
W4385873560 cites W4309586747 @default.
W4385873560 cites W4313640759 @default.
W4385873560 cites W4315641632 @default.
W4385873560 cites W4317473403 @default.
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W4385873560 doi "https://doi.org/10.3390/md21080450" @default.
W4385873560 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37623731" @default.
W4385873560 hasPublicationYear "2023" @default.
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