Culture conditions affecting H₂ production by phototrophic bacterium Rhodobacter sphaeroides KD131

The effect of culture conditions on photo-H₂ production was investigated using the photosynthetic bacterium Rhodobacter sphaeroides KD131. When the initial cell concentrations were either below or above a threshold of 0.56 g-dcw/L, the H₂ production decreased due to an imbalance between the biomass and the substrate. Malate- and succinate-fed cultures exhibited the highest substrate conversion to H₂ production, whereas more than 85% of the substrate was utilized for cell growth in acetate- and butyrate-fed cultures. Compared with (NH₄)₂SO₄, glutamate as a nitrogen source was more appropriate for the initial H₂ production, but inhibited H₂ evolution during extended cultivation due to released NH₄⁺ ion. Even though the KD131 strain grew well under slightly acidic conditions, the pH value should be maintained in a neutral range in order to enhance H₂ production. The highest H₂ yield of 3.65 mol-H₂/mol-succinate was achieved when the KD131 strain grew in the succinate-glutamate medium with an initial cell concentration of 0.56 g-dcw/L and the pH level controlled to 7.5.