Microbial Protocols for Spacecraft: 3. Spore Monolayer Preparation Methods for Ultraviolet Irradiation Exposures.

Developing robust microbial survival models for interplanetary and planetary spacecraft requires precise inactivation kinetics for vehicle bioburdens. To generate such data, reliable protocols are required for preparing, testing, and assaying microbial cells or spores on simulated spacecraft materials. New data are presented on the utility of the liquid droplet protocol for applying spores to aluminum coupons. Results indicate that low-density spore monolayers should be created between 2 and 5 × 10 spores per cm on individual coupons to prevent the formation of aggregates or multilayers of spores. Such aggregation or multilayers will interfere with the precision of characterizing the effects of UV irradiation on spore survival. Optimum spore monolayers are defined as spore monolayers without overlapping or clustered cells and in which all spores will receive UV photons during assays. The best spore monolayers were created with sterile deionized water (SDIW) on uncoated aluminum coupons, or with SDIW + Triton X-100 (at 0.5 × of the ) on either uncoated Al-coupons or on Chemfilm Class 1A-coated coupons. The Triton X-100 surfactant improved the uniformity of the monolayers without affecting the sensitivity of the spores to UV irradiation. Furthermore, spore layers created at either 2 × 10 or 2 × 10 spores/cm created multi-stacking effects that clearly reduced the precision of the UV irradiation assays. A set of standardized protocols is suggested for spacecraft processing and planetary protection communities to permit directly comparing results from divergent labs.