The effect of oxygen tension on the production of Bacillus thuringiensis subsp. israelensis toxin active against Aedes aegypti larvae

An optimized batch production of Bacillus thuringiensis subsp. israelensis was made in a stirred Bioflo III reactor using a previously selected medium, and operating conditions in the range of 100–500 rev/min stirrer speeds and 0.2–1 air flow/culture medium volume/minute (v/v/m) aeration rates, including five combinations; at the end of fermentation, dry powders were recovered and evaluated against Aedes aegypti larvae at 0.05 mg/l. Later, the lethal concentration inducing 50% mortality (LC50) was determined for the two most toxic powders. The bioinsecticide yields varied from 9.1 to 15.7 g/l and the total fermentation times ranged between 18 and 30.3 h. The toxicity varied for two powders much more than for the others. These were for combinations with 300 rev/min:1 v/v/m and 500 rev/min:0.6 v/v/m, giving mortality percentages of 47.2 and 59.7, with LC50 values of 0.2675 and 0.0685 mg/l, respectively. A t test showed no significant difference. However, the larvicidal powder produced with 300 rev/min:1 v/v/m gave more variable toxicity than the powder obtained with 500 rev/min:0.6 v/v/m.