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- The influence of culture conditions on biomass and high value . . .
Influence of temperature (from 15 to 30 °C) and incident PFD (from 250 to 1600 μE ·s − 1·m − 2) on the metabolite of interest productivity of Nannochloropsis gaditana: proteins and EPA productivity (a) and vaucheriaxanthin, β-carotene and total pigments (T P ) (b)
- The Effect of Diel Temperature and Light Cycles on the Growth . . .
Overnight metabolism performed differently, probably as a result of the temperature impact on respiration Our photobioreactor matrix has produced novel insights into the physiological response of Nannochloropsis oculata to simulated environmental conditions
- Growth and fatty acid distribution over lipid classes in
Suboptimal and supraoptimal temperatures negatively impact growth and photosynthetic performance with a subsequent effect on lipid accumulation It is generally recognised that lower temperatures trigger an increase in fatty acid desaturation while higher temperatures trigger the opposite reaction
- Combined influence of light and temperature on growth rates . . .
The optimal temperature for growth of Nannochloropsis oceanica was found between 26 and 28°C at different incident irradiances between 34 and 80 mmol m -2 s -1 (Sandnes et al , 2005) An
- Outdoor pilot-scale production of Nannochloropsis gaditana . . .
The range of optimum dilution rate was 0 31-0 351 day with maximum biomass, lipid and fatty acids productivities of 590, 110 and 66 8 mg l day, respectively Nitrate limitation led to an increase in lipid and fatty acids contents (from 20 5% to 38 0% and from 16 9% to 23 5%, respectively)
- Outdoor pilot production of Nannochloropsis gaditana . . .
Influence of the dilution rate on biomass productivity in outdoor continuous cultures of N gaditana in flat-panel photobioreactors with nutrient-replete medium (10 0 mM NO 3 − and 0 8 mM PO 4 3 −) in the ranges of temperature considered (standard deviation 1 0–1 7): 13 0, 20 0, 27 0 and 33 0 °C
- The influence of culture conditions on biomass and high value . . .
To this end, a range of temperatures (15–30 °C), incident photon flux densities (PFD) (250–1600 μmol·s−1·m−2) and dilution rates (0 1–0 5 d−1) have been tested in indoor Nannochloropsis gaditana cultures Predictive models for biomass and high value product productivities are presented
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