Potential of Bacillus subtilis as oxygen-removal agent for biohydrogen production by Clostridium acetobutylicum.

Molasses are a source of fermentable sugars, the substrate utilized for this study, as it is a subproduct from sugarcane processing for sucrose recovery. These sugars can be metabolized for bioH 2 production by bacterial strains, particularly strict-anaerobe Clostridium acetobutylicum (Clac) and its media preparation requires chemical of O 2 removal and N 2 flushing to promote anaerobiosis. Bacillus subtilis (Bsub) can deplete O 2 from culture media and promotes anaerobiosis, which is an aspect that would benefit from further research. Clac was grown in an anaerobic medium and produced 269 mL of hydrogen at 72 h. By co-culturing Clac and Bsub , 502 mL of bioH 2 were produced in a cysteine/N 2 flushed medium, while 203 mL of bioH 2 at 72 h were produced by aerobic co-culture. Additionally, in an untreated/aerobic conventional growth culture for Clac , no production of H 2 was detected, reinforcing the utility of Bsub for anaerobiosis generation. • Clostridium acetobutylicum consumes substrate approximately 6x faster than Bacillus subtilis. • Clostridium acetobutylicum produced 202 mL of bioH 2 in a culture with anaerobiosis assisted by Bacillus subtilis. • Bacillus subtilis CBB5555 can act as a biological O 2 depleter for anaerobic bioprocesses. [ABSTRACT FROM AUTHOR]