Soluble Sunscreens Fully Protect E. coli from Disinfection by Electrohydraulic Discharges

Abstract

We show that the ultraviolet radiation emitted, rather than the thermal/pressure shocks or the chemical species that are generated in these events, is the lethal agent that inactivates Escherichia coli colonies exposed to electrohydraulic discharges, EHD. Disinfection is completely suppressed in the presence of <100 mg L^(-1) of 2,2'-dihydroxy-4,4'-dimethoxybenzophenone-5,5'-disulfonic acid, BP9, a commercial water-soluble sunscreen. Viable bacteria decay by logit kinetics with the number of EHD. The fact that the slopes of the logit plots depend inversely on BP9 concentration, and vanish above ∼ 30 mg BP9 L^(-1), is direct evidence that E. coli is exclusively sterilized by UV radiation in these experiments. Present LD_(50) photon doses are about 10^3 times larger than those required from low-power germicidal lamps, indicating that high-intensity radiation is able to further promote into inactive channels the lower excited state(s) of nucleic acids responsible for DNA damage. The present study confirms the existence of a significant trade-off between photon efficiency and radiative power in bacterial disinfection by UV light.

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