Hydrogen peroxide and ultraviolet irradiation are known to interact synergistically for killing of bacterial spores. Synergy could be demonstrated with spores of Bacillus megaterium ATCC19213 adsorbed to filter paper strips or glass coverslips treated first with the peroxide and then dried for as long as 48 h prior to UV irradiation. This delayed action was considered to be due to absorption of the peroxide by the spores in an active but not readily vaporized form, which could become sporicidal also if the spores were heated to 50 degrees C. B. megaterium spores mixed with 0.1% (32.6 mM) H(2)O(2) solution appeared to absorb as much as 15 micromol/mg dry weight or about 0.5 mg/mg, but only a third to half of the peroxide could be recovered by water washing. A part of the unrecovered peroxide was degraded in reactions resulting in measurable production of oxygen. Degradation was not reduced by heating the spores to 65 degrees C or by azide and so appeared to be non-enzymatic. Spores of the anaerobe Clostridium sporogenes were also sensitized to ultraviolet killing by H(2)O(2) treatment followed by drying. They appear to absorb less peroxide, only about 2 micromol/mg, but had lower capacities to degrade H(2)O(2) so that nearly all of the peroxide could be recovered by washing with water. The findings presented should be helpful in the design of new methods for synergistic killing of spores by H(2)O(2) and UV irradiation or dry heat, especially involving, for example, packaging materials.