Reed David W, Fujita Yoshiko, Delwiche Mark E, Blackwelder D Brad, Sheridan Peter P, Uchida Takashi, Colwell Frederick S
Biotechnology Department, Idaho National Engineering and Environmental Laboratory, Idaho Falls, Idaho 83415-2203, USA.
Appl Environ Microbiol. 2002 Aug;68(8):3759-70. doi: 10.1128/AEM.68.8.3759-3770.2002.
Microbial communities in cores obtained from methane hydrate-bearing deep marine sediments (down to more than 300 m below the seafloor) in the forearc basin of the Nankai Trough near Japan were characterized with cultivation-dependent and -independent techniques. Acridine orange direct count data indicated that cell numbers generally decreased with sediment depth. Lipid biomarker analyses indicated the presence of viable biomass at concentrations greater than previously reported for terrestrial subsurface environments at similar depths. Archaeal lipids were more abundant than bacterial lipids. Methane was produced from both acetate and hydrogen in enrichments inoculated with sediment from all depths evaluated, at both 10 and 35 degrees C. Characterization of 16S rRNA genes amplified from the sediments indicated that archaeal clones could be discretely grouped within the Euryarchaeota and Crenarchaeota domains. The bacterial clones exhibited greater overall diversity than the archaeal clones, with sequences related to the Bacteroidetes, Planctomycetes, Actinobacteria, Proteobacteria, and green nonsulfur groups. The majority of the bacterial clones were either members of a novel lineage or most closely related to uncultured clones. The results of these analyses suggest that the microbial community in this environment is distinct from those in previously characterized methane hydrate-bearing sediments.
利用依赖培养和不依赖培养的技术,对取自日本附近南海海槽弧前盆地含甲烷水合物的深海沉积物(深度超过海底以下300米)岩芯中的微生物群落进行了表征。吖啶橙直接计数数据表明,细胞数量通常随沉积物深度而减少。脂质生物标志物分析表明,在类似深度下,有活力的生物量浓度高于先前报道的陆地地下环境。古菌脂质比细菌脂质更丰富。在10℃和35℃下,用所有评估深度的沉积物接种的富集培养物中,乙酸盐和氢气都能产生甲烷。对从沉积物中扩增的16S rRNA基因进行表征表明,古菌克隆可以在广古菌门和泉古菌门内离散分组。细菌克隆比古菌克隆表现出更大的总体多样性,其序列与拟杆菌门、浮霉菌门、放线菌门、变形菌门和绿色非硫菌群有关。大多数细菌克隆要么是新谱系的成员,要么与未培养克隆关系最为密切。这些分析结果表明,该环境中的微生物群落与先前表征的含甲烷水合物沉积物中的微生物群落不同。