Fucoxanthin and docosahexaenoic acid production by cold-adapted Tisochrysis lutea

Tisochrysis lutea is an important microalgal species for fucoxanthin and docosahexaenoic acid (DHA) production with an optimum cultivation temperature of approximately 30 ◦C. The aim of the present work was to develop a winter strain with high productivity at 15 ◦C. The response of the original strain to a decrease in temperature from 30 ◦C to 15 ◦C was investigated in continuous turbidostat experiments. This was followed by adaptation for >180 days at 15 ◦C and 2 rounds of sorting for cells with high chlorophyll fluorescence (top 5%) using fluorescence-activated cell sorting (FACS). For the original strain the productivity of biomass, fucoxanthin, and DHA decreased by 92 %, 98 % and 85 % respectively when decreasing the temperature from 30 ◦C to 15 ◦C. In the sorted cold-adapted ‘winter strain’, biomass, fucoxanthin, and DHA productivities were similar to those at 30 ◦C. In addition, the fucoxanthin concentration increased from 1.11 to 4.24 mg g− 1 dry weight and the polar lipid fraction in total fatty acids increased from 21 % to 55 %. The winter strain showed a robust and stable phenotype after one year of cultivation, expanding the outdoor fucoxanthin and lipid production seasons for this species.