Journal of Applied Microbiology, Vol.119, No.1, 76-87, 2015
Seasonal isolation of microalgae from municipal wastewater for remediation and biofuel applications
AimsThe objective of the study was to isolate the microalgae strains from treated municipal wastewater in both summer and winter seasons in order to identify strains better suited for nutrient remediation and biofuel production under either cooler or warmer temperatures. Methods and ResultsFifty-six strains in total were isolated and identified by DNA sequencing from effluent samples collected from a local wastewater treatment plant during the summer and winter of 2011. Screening of 41 isolates based on the fatty acid productivity at either 22 or 10 degrees C resulted in the selection of 12 strains organized into two groups of 6the M (mild) and C (cool) groups, respectively. Four of the C-group strains were isolated from the winter sample, while four of the M-group isolates were isolated from the summer sample. Fatty acid pools in M-group strains were heavily regulated in response to growth temperature while C-group strains were more insensitive. In three of the six C-group strains, the rates of biomass and fatty acid productivity at 10 degrees C exceeded the corresponding rates at 22 degrees C. Conversely, M group were always more productive at 22 compared to 10 degrees C. Mixotrophic strategies to enhance productivity were generally unsuccessful in M-group strains at 22 degrees C but proved to be more effective in C-group cultures at 10 degrees C. ConclusionsIn general, C-group strains appeared better suited for growth in municipal wastewater at 10 degrees C, while M-group strains were better suited at 22 degrees C. On balance, C-group isolates were more likely to come from winter wastewater samples while M-group strains were more likely to come from the summer sample. Significance and Impact of the StudyOur results demonstrate that the effects of temperature on microalgal growth for wastewater remediation can be mitigated somewhat by isolation and careful selection of strains adapted to seasonal wastewater conditions.
Keywords:biofuel;biomass productivity;bioremediation;CO2 capture;fatty acids;microalgae;temperature;wastewater