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This paper provides an overview of the IMMWPS Integrated Ground Test Program, completed at the NASA Johnson Space Center (JSC) during October and November 2001. The JSC Crew and Thermal Systems Division (CTSD) has developed the IMMWPS orbital flight experiment to test the feasibility of a microbe-based water purifier for use in zero-gravity conditions. The IMMWPS design utilizes a Microbial Processor Assembly (MPA) inoculated with facultative anaerobes to convert organic contaminants in wastewater to carbon dioxide and biomass. The primary purpose of the ground test program was to verify functional operations and procedures. A secondary objective was to provide initial ground data for later comparison to on-orbit performance. This paper provides a description of the overall test program, including the test article hardware and the test sequence performed to simulate the anticipated space flight test program. In addition, a summary of significant results from the testing is provided.

Bioregenerative life support systems (BLSS) may be necessary for long-term space missions due to the high costs of lifting supplies and equipment into orbit. Much of the recycling to be done in a BLSS involves microbial activity. Although most studies to date have used a culture-based approach to characterize bacteria in BLSS under development, recently work has begun utilizing non-culture-based, DNA approaches to elucidate which microbes are present. In this study, we investigated whether replicate reactors develop replicate microbial communities using a 16S rRNA gene approach and terminal restriction length polymorphism analysis for tubular, nitrifier reactors in use at JSC. Our result suggests that both individual reactor and temporal signals can be detected in the microbial populations. This information may lead to optimization of inoculation procedures and reactor operations conditions to increase predictability and reliability of biological systems.