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Journal Article | Research Support, Non-U.S. Gov't

Bacterial diversity in a deep-subsurface clay environment.

V Boivin-Jahns, R Ruimy, A Bianchi, S Daumas, R Christen
V Boivin-Jahns
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R Ruimy
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A Bianchi
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S Daumas
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R Christen
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ABSTRACT

The presence of bacteria in a deep clay sediment was analyzed in a 20-m-long core horizontally drilled from a mine gallery at a depth of 224 m in the Boom clay formation (Mol, Belgium). This clay deposit is the result of a marine sedimentary process that occurred 35 million years ago. Bacterial activities were estimated by measuring respiration on [14C]glucose. Using the same samples, universal primers for the genes coding for eubacterial 16S rRNA were used to amplify extracted DNA. PCR products were then cloned, sequenced, and analyzed by molecular phylogeny. Our data showed a decrease in bacterial densities as a function of distance from the gallery, with few bacteria detectable by culture at more than 80 cm from the gallery wall. PCR experiments showed the presence of bacteria in all samples, and phylogenetic analyses were then used to tentatively identify these organisms. Because of low bacterial densities in deep clay samples, direct counts and enumeration of viable bacteria on diverse culture media remained negative. All experiments, both cultures and PCR, demonstrated the difficulty of analyzing samples that contain only a few poorly active bacteria as it is difficult to avoid a small contamination by active bacteria during sampling. Since the porosity of the Boom clay formation is less than the expected size of bacteria, it is possible that some of the bacteria present in this 35-million-year-old deep clay deposit derive from cells initially trapped during the sedimentation process.

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Bacterial diversity in a deep-subsurface clay environment.
V Boivin-Jahns, R Ruimy, A Bianchi, S Daumas, R Christen
Applied and Environmental Microbiology Sep 1996, 62 (9) 3405-3412; DOI:

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Bacterial diversity in a deep-subsurface clay environment.
V Boivin-Jahns, R Ruimy, A Bianchi, S Daumas, R Christen
Applied and Environmental Microbiology Sep 1996, 62 (9) 3405-3412; DOI:
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