A BATCH CULTURE METHOD FOR MICROALGAE AND CYANOBACTERIA WITH CO 2 SUPPLY THROUGH POLYETHYLENE MEMBRANES 1

A new method for CO 2 supply to photoautotrophic organisms was developed, and its applicability for measuring specific growth rates in shaken batch cultures of cyanobacteria and unicellular algae was shown. Small bags containing a concentrated carbonate buffer with a CO 2 partial pressure of 32 mbar were prepared from a thin foil of low density polyethylene (LDPE). These bags were inserted as CO 2 reservoirs (CRs) into polystyrene culture flasks with gas‐permeable screw caps, which were suitable to photometric growth measurement. CO 2 was released directly into the medium with membrane‐controlled kinetics. The CRs were not depleted within 1 week, although the atmosphere in the culture vessel exchanged rapidly with the ambient air. Rates of initial growth and final densities of the cultures of six different unicellular algal species and one cyanobacterium were markedly increased by diffusive CO 2 supply from the CR. In the presence of a CR, growth was exponential during the first 2 d in all cultures studied. The method described allowed a high number of measurements of specific growth rates with relatively simple experimental setup.