Molecular microbiological approaches to understand biogeochemical processes in deep aquifers
地下水中の生物化学反応プロセスの解明
長沼 毅; 岩月 輝希 ; 清水 悟*; 秋山 克*; 石島 洋次*
Naganuma, Takashi; Iwatsuki, Teruki; Shimizu, Satoru*; Akiyama, Masaru*; Ishijima, Yoji*
岐阜県東濃地域と北海道幌延地域で地下水中の微生物をサイズ分離により採取し、生物化学反応プロセスについて解析を行った。その結果、16SRNAに基づく解析手法が有効であることが示された。
Microbial communities affect geochemical and hydrogeological processes in deep aquifers, and have been characterized mainly by genetic approaches as well as activity measurements. We have analyzed 16S rDNA assemblages from hydrologically isolated aquifers of porous-but-less-permeable strata in the northernmost part of Japan, and revealed distinctive microbial communities including methanogens and so-far-uncultured species. We have also collected 16S rDNA of the 0.2-micron m-passing-but-0.1-micron m-captured microorganisms from sedimentary and granite rock aquifers in a uranium deposit area of central Japan. In situ activities are characterized and measured by culture-based physiological approaches, which have many limitations and biases though. We have developed a quantification of mRNA for redox-responsive proteins of Fe(III)-reducing bacteria collected from a deep aquifer. This approach is applicable to other aquifer processes such as reduction of nitrate, sulfate, CO, etc.