Effect of temperature and nitrogen concentration on lipid productivity and fatty acid composition in three Chlorella strains

The effects of temperature and nitrogen (N) on lipid productivity and fatty acid composition in three Chlorella strains grown at 20°C, 25°C and 30°C in modified Tamiya media with low (7 and 21mgL−1N) and moderate (70mgL−1N) N were investigated. Temperature and N influenced biomass accumulation with...

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Bibliographic Details
Published in:Algal research (Amsterdam) 2016-06, Vol.16, p.141-149
Main Authors: Ördög, Vince, Stirk, Wendy A., Bálint, Péter, Aremu, Adeyemi O., Okem, Ambrose, Lovász, Csaba, Molnár, Zoltán, van Staden, Johannes
Format: Article
Language:English
Subjects:
Carbohydrates
Chlorella
Fatty acids
Lipids
Nitrogen-deprivation
Proteins
Temperature
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Summary:The effects of temperature and nitrogen (N) on lipid productivity and fatty acid composition in three Chlorella strains grown at 20°C, 25°C and 30°C in modified Tamiya media with low (7 and 21mgL−1N) and moderate (70mgL−1N) N were investigated. Temperature and N influenced biomass accumulation with the largest biomass accumulation (1697, 1732 and 1809mgDWL−1 for the three strains) at higher temperatures and N concentrations. Proteins decreased and lipids increased over time with N-deprivation. Strain, temperature and N concentration influenced lipid productivity with the highest productivity in cultures grown in 3% N at higher temperatures (68, 70 and 90mglipidL−1day−1 for the three strains). The fatty acid methyl ester (FAME) profile was similar in the three strains with C16:0>C18:1n9c>unidentified FAMEs>C18:2n6c>C18:3n3>C18:0 comprising 90% of the total FAME. C18:1n9c and C16:0 showed the largest variation in response to culture conditions in Chlorella sp. MACC-438 (0.2–26.8% and 2.3–16.2% respectively) and C. minutissima MACC-452 (0.2–26.7% and 3.0–23.3% respectively); unidentified FAMEs (1.1–9.7%) and C18:2n6c (0.9–11.2%) were the most variable in Chlorella sp. MACC-728. Lower temperatures resulted in higher % FAME in Chlorella sp. MACC-438 (68.9%) and C. minutissima MACC-452 (91.7%). Nitrogen concentration had more influence on the specific FAME content compared to temperature. Thus, temperature tolerance is important when selecting strains to ensure high lipid productivity while the specific strains response to N-deprivation is important to ensure quality of the biofuel feedstock. •Temperature and nitrogen influenced lipid productivity in three Chlorella strains.•Fatty acid profiles varied according to culture conditions and were strain specific.•C18:1n9c and C16:0 were the most variable fatty acids in two of the tested strains.•C18:2n6c and unidentified fatty acids (C24) were most variable in the third strain tested.
ISSN:2211-9264
2211-9264
DOI:10.1016/j.algal.2016.03.001