Add to ORKGDeeply buried marine sediments harbour a large fraction of all prokaryotes on Earth but it is still unknown which phylogenetic and physiological microbial groups dominate the deep biosphere. In this study real-time PCR allowed a comparative quantitative microbial community analysis in near-surface and deeply buried marine sediments from the Peru continental margin. The 16S rRNA gene copy numbers of prokaryotes and Bacteria were almost identical with a maximum of 10(8)-10(10) copies cm(-3) in the near-surface sediments. Archaea exhibited one to three orders of magnitude lower 16S rRNA gene copy numbers. The 18S rRNA gene of Eukarya was always at least three orders of magnitude less abundant than the 16S rRNA gene of prokaryotes. The 16S rRNA...
Biddle, Jennifer F.The application of DNA- and RNA-based molecular tools to lithological environment...
Biogeochemical and microbiological processes in the upper sediment layers of tidal flats were analys...
We investigated 16S rRNA gene diversity at a high sediment depth resolution (every 5 cm, top 30 cm) ...
The community compositions of Bacteria and Archaea were investigated in deep, sub-seafloor sediment...
Archaeal 16S rRNA was extracted from samples of deep marine subsurface sediments from Peru Margin si...
Deep marine subsurface sediments represent a novel archaeal biosphere with unknown physiology; the s...
For the first time quantitative data on the abundance of Bacteria, Archaea, and Eukarya in deep terr...
The variability of bacterial community composition and diversity was studied by comparative analysis...
We investigated 16S rRNA gene diversity at a high sediment depth resolution (every 5 cm, top 30 cm) ...
Microbiological examination of sediment cores from the Peru margin (Leg 112) has produced highly sig...
Microbiological examination of sediment cores from the Peru margin (Leg 112) has produced highly sig...
The microbial diversity of sulfate-reducingand methanogenic subsurface sediments of theBenguela Upwe...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
The hadal environment is the deepest part of the ocean and harbors a significant number of unique mi...
Due to the frequent exchange of matter and energy between living and non-living matter in seawater, ...
Biddle, Jennifer F.The application of DNA- and RNA-based molecular tools to lithological environment...
Biogeochemical and microbiological processes in the upper sediment layers of tidal flats were analys...
We investigated 16S rRNA gene diversity at a high sediment depth resolution (every 5 cm, top 30 cm) ...
The community compositions of Bacteria and Archaea were investigated in deep, sub-seafloor sediment...
Archaeal 16S rRNA was extracted from samples of deep marine subsurface sediments from Peru Margin si...
Deep marine subsurface sediments represent a novel archaeal biosphere with unknown physiology; the s...
For the first time quantitative data on the abundance of Bacteria, Archaea, and Eukarya in deep terr...
The variability of bacterial community composition and diversity was studied by comparative analysis...
We investigated 16S rRNA gene diversity at a high sediment depth resolution (every 5 cm, top 30 cm) ...
Microbiological examination of sediment cores from the Peru margin (Leg 112) has produced highly sig...
Microbiological examination of sediment cores from the Peru margin (Leg 112) has produced highly sig...
The microbial diversity of sulfate-reducingand methanogenic subsurface sediments of theBenguela Upwe...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
The hadal environment is the deepest part of the ocean and harbors a significant number of unique mi...
Due to the frequent exchange of matter and energy between living and non-living matter in seawater, ...
Biddle, Jennifer F.The application of DNA- and RNA-based molecular tools to lithological environment...
Biogeochemical and microbiological processes in the upper sediment layers of tidal flats were analys...
We investigated 16S rRNA gene diversity at a high sediment depth resolution (every 5 cm, top 30 cm) ...