DEEP BIOSPHERE. Exploring deep microbial life in coal-bearing sediment down to ~2.5 km below the ocean floor.
about
Microbial Dysbiosis: Rethinking Disease in Marine EcosystemsWake me when it's over - Bacterial toxin-antitoxin proteins and induced dormancyMicrobiology: lessons from a first attempt at Lake Ellsworth.Gaia and her microbiome.Immiscible hydrocarbon fluids in the deep carbon cycle.Microbial turnover times in the deep seabed studied by amino acid racemization modelling.MICROBIAL ECOLOGY. Making methane down deep.Application of Stochastic Labeling with Random-Sequence Barcodes for Simultaneous Quantification and Sequencing of Environmental 16S rRNA GenesPredominance of Viable Spore-Forming Piezophilic Bacteria in High-Pressure Enrichment Cultures from ~1.5 to 2.4 km-Deep Coal-Bearing Sediments below the Ocean Floor.Complete Genome Sequence of Bacillus subtilis Strain 29R7-12, a Piezophilic Bacterium Isolated from Coal-Bearing Sediment 2.4 Kilometers below the SeafloorRelationship of Bacterial Richness to Organic Degradation Rate and Sediment Age in Subseafloor Sediment.Microbial Sulfate Reduction Potential in Coal-Bearing Sediments Down to ~2.5 km below the Seafloor off Shimokita Peninsula, JapanDistribution of anaerobic carbon monoxide dehydrogenase genes in deep subseafloor sediments.Pressure-A Gateway to Fundamental Insights into Protein Solvation, Dynamics, and Function.Visibiome: an efficient microbiome search engine based on a scalable, distributed architecture.Climate oscillations reflected within the microbiome of Arabian Sea sediments.Atribacteria from the Subseafloor Sedimentary Biosphere Disperse to the Hydrosphere through Submarine Mud Volcanoes.Review of combined isotopic and optical nanoscopy.The Ability of Microbial Community of Lake Baikal Bottom Sediments Associated with Gas Discharge to Carry Out the Transformation of Organic Matter under Thermobaric Conditions.Variance and potential niche separation of microbial communities in subseafloor sediments off Shimokita Peninsula, Japan.Influence of Igneous Basement on Deep Sediment Microbial Diversity on the Eastern Juan de Fuca Ridge FlankPressure as a Limiting Factor for Life.The evolution of early cellular systems viewed through the lens of biological interactions.In Chaotropy Lies OpportunityGenomic variation in microbial populations inhabiting the marine subseafloor at deep-sea hydrothermal vents.Methyl-compound use and slow growth characterize microbial life in 2-km-deep subseafloor coal and shale beds.Exploration of cultivable fungal communities in deep coal-bearing sediments from ∼1.3 to 2.5 km below the ocean floor.Defining boundaries for the distribution of microbial communities beneath the sediment-buried, hydrothermally active seafloor.Aerobic and Anaerobic Methanotrophic Communities Associated with Methane Hydrates Exposed on the Seafloor: A High-Pressure Sampling and Stable Isotope-Incubation Experiment.Labilibaculum manganireducens gen. nov., sp. nov. and Labilibaculum filiforme sp. nov., Novel Bacteroidetes Isolated from Subsurface Sediments of the Baltic Sea.Multi-heme cytochromes provide a pathway for survival in energy-limited environments.Microbial life in deep subseafloor coal beds.Toward Extreme Biophysics: Deciphering the Infrared Response of Biomolecular Solutions at High Pressures.Isoprenoid quinones resolve the stratification of microbial redox processes in a biogeochemical continuum from the photic zone to deep anoxic sediments of the Black Sea.D:L-Amino Acid Modeling Reveals Fast Microbial Turnover of Days to Months in the Subsurface Hydrothermal Sediment of Guaymas Basin.Microbial community composition along a 50 000-year lacustrine sediment sequence.Identification and Removal of Contaminant Sequences From Ribosomal Gene Databases: Lessons From the Census of Deep Life.Deep-biosphere methane production stimulated by geofluids in the Nankai accretionary complex.Rock magnetic and geochemical evidence for authigenic magnetite formation via iron reduction in coal-bearing sediments offshore Shimokita Peninsula, Japan (IODP Site C0020)
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P2860
DEEP BIOSPHERE. Exploring deep microbial life in coal-bearing sediment down to ~2.5 km below the ocean floor.
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2015 nî lūn-bûn
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2015 թուականի Յուլիսին հրատարակուած գիտական յօդուած
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2015 թվականի հուլիսին հրատարակված գիտական հոդված
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2015年の論文
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2015年学术文章
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2015年学术文章
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2015年学术文章
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2015年学术文章
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2015年学术文章
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2015年學術文章
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DEEP BIOSPHERE. Exploring deep ...... ~2.5 km below the ocean floor.
@ast
DEEP BIOSPHERE. Exploring deep ...... ~2.5 km below the ocean floor.
@en
DEEP BIOSPHERE. Exploring deep ...... ~2.5 km below the ocean floor.
@nl
type
label
DEEP BIOSPHERE. Exploring deep ...... ~2.5 km below the ocean floor.
@ast
DEEP BIOSPHERE. Exploring deep ...... ~2.5 km below the ocean floor.
@en
DEEP BIOSPHERE. Exploring deep ...... ~2.5 km below the ocean floor.
@nl
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DEEP BIOSPHERE. Exploring deep ...... ~2.5 km below the ocean floor.
@ast
DEEP BIOSPHERE. Exploring deep ...... ~2.5 km below the ocean floor.
@en
DEEP BIOSPHERE. Exploring deep ...... ~2.5 km below the ocean floor.
@nl
P2093
P2860
P50
P356
P1433
P1476
DEEP BIOSPHERE. Exploring deep ...... ~2.5 km below the ocean floor
@en
P2093
E Trembath-Reichert
G J Harrington
P2860
P304
P356
10.1126/SCIENCE.AAA6882
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P50
P577
2015-07-23T00:00:00Z