Survival and nutritional requirements of three bacteria isolated from ultrapure water.

Bacteria isolated previously from ultrapure water (UPW) systems were examined for their ability to survive in UPW, with the ultimate goal of elucidating potential carbon and energy sources for the bacteria. Two strains of Ralstonia pickettii isolated from different areas within the UPW system (pretreatment and polishing loop, and referred to as strains 3A1 and MF254A, respectively) and a strain of Bradyrhizobium sp. were compared to increase our understanding of the fundamental behavior of bacteria contaminating UPW. R. pickettii (3A1) grew significantly slower in R2A medium, with a final cell yield much lower than the isolate from the polishing loop. In addition, R. pickettii MF254A showed a broader substrate range than either strain 3A1 or Bradyrhizobium sp. In UPW, there appears to be a threshold cell concentration (approximately 10(6) colony-forming units/ml), whereby the cell numbers remain constant for a prolonged period of 6 months or more. Below this concentration, rapid proliferation is observed until the threshold concentration is attained. Preliminary experiments suggested that nitrogen gas (frequently added to UPW storage tanks) may contribute to growth of Bradyrhizobium sp. Above the threshold concentration, the strain of Ralstonia sp. isolated from the polishing loop was capable of cryptic growth with heat-killed cells in UPW. However, cryptic growth was not observed when the cells supplied as nutrients were killed using UV254 light. Furthermore, cryptic growth did not appear to contribute significantly to proliferation of Bradyrhizobium sp. or Ralstonia sp. 3A1 (isolated from the pretreatment loop). We believe that cryptic growth may aid survival of the bacteria in UPW, but further experiments are warranted to prove this phenomenon conclusively.

[Ecological consequences of radioactive pollution for soil bacteria within the 10-km region around the Chernobyl Atomic Energy Station]. / Ekologicheskie posledstviia radioaktivnogo zagriazneniia dlia pochvennykh bakterii v 10-km zone ChAES.

The diversity of aerobic chemoorganotrophic (capable of growing on nutrient agar) bacteria in radioactive soil (0.3-17.0 microCi/kg soil) sampled in the 10-km zone around the Chernobyl Nuclear Power Plant (CNPP) was found to be lower than that observed in control, uncontaminated soil with a radioactivity of 0.002-0.006 microCi/kg soil. All the radioactive soil samples contained the bacteria Bacillus cereus and Methylobacterium extorquens or M. mesophillicum, which exhibited a high tolerance to 0.3-1.0 M hydrogen peroxide, whose action can to a certain extent simulate the effect of ionizing radiation. Some of the contaminated soil samples contained other species of chemoorganotrophic bacteria with a low tolerance to H2O2. The survival of bacteria in the Chernobyl accident zone is probably due to the functioning of mechanisms efficiently neutralizing peroxide compounds and repairing radiation-damaged DNA. The population of cellulolytic, nitrifying, and sulfate-reducing bacteria in contaminated soil was found to be 1-2 orders of magnitude less than in control soil, indicating the unfavorable effect of anthropogenic radiation on the abundance and diversity of soil bacteria.