Laboratory evolution can improve algal cell yield and lipid production under mildly cold conditions

One challenge to large-scale microalgae cultivation, e.g., for biodiesel production, is the seasonal low-temperature conditions. We argue that seasonally varying selection in natural environments has prevented algae from better adapting to cold temperatures, and that laboratory evolution offers a promising approach for obtaining cold-adapted algal materials. We conducted a population-level artificial selection experiment with the unicellular green microalgae Chlorella sorokiniana at both a benign temperature (25) and a mildly cold temperature (15). Four artificial selection regimes were established: random selection, selection for high biomass (i.e., cell yield), selection for high lipid production, and rotation between high-biomass and high-lipid selection. We did not observe significant differences among the four selection regimes in evolutionary changes of algal cell yield or lipid yield, suggesting that natural selection at the individual level had dominated the evolutionary changes in our experiment. Compared with the ancestral strain, selection lines that had evolved at 15 typically exhibited increased cell yield and reduced lipid content per cell, indicating a trade-off relationship. However, substantial increases in cell yield may compensate for the reduction in lipid content per cell. Notably, three out of 16 selection lines showed > 1-fold increase in cell yield, and one exhibited > 1-fold increase in population-level lipid yield. Selection lines that had evolved at 25 displayed even greater increases in both cell and lipid yields, with a positive relationship between cell yield and lipid content per cell. Our results demonstrated the potential for laboratory evolution to obtain algal materials suitable for biofuel production under seasonal low-temperature conditions. HighlightsO_LIAlgae from natural environments not well-adapted to seasonal cold conditions. C_LIO_LILaboratory evolution under constant conditions with Chlorella sorokiniana. C_LIO_LIBoth cell yield and lipid production at a low temperature increased. C_LI