Deep-sea piezosphere and piezophiles: geomicrobiology and biogeochemistry.

Characteristics of Deep-Sea Environments and Biodiversity of Piezophilic Organisms

1. Investigation of Life in a High-Pressure Environment 2. JAMSTEC Exploration of the Deep-Sea High-Pressure Environment 3. Taxonomic Identification of Piezophilic Bacteria 3.1. Isolation of Piezophiles and their Growth Properties 3.2 Taxonomic Characterization and Phylogenetic Relations 4. Biodiversity of Piezophiles in the Ocean Environment 4.1. Microbial Diversity of the Deep-Sea Environment...

Characteristics of Deep-Sea Environments and Biodiversity of Piezophilic Organisms

1. Investigation of Life in a High-Pressure Environment 2. JAMSTEC Exploration of the Deep-Sea High-Pressure Environment 3. Taxonomic Identification of Piezophilic Bacteria 3.1. Isolation of Piezophiles and their Growth Properties 3.2 Taxonomic Characterization and Phylogenetic Relations 4. Biodiversity of Piezophiles in the Ocean Environment 4.1. Microbial Diversity of the Deep-Sea Environment...

Piezophiles: Microbial Adaptation to the Deep-sea Environment

The unique 16S rRNA genes of piezophiles reflect both phylogeny and adaptation.

In the ocean's most extreme depths, pressures of 70 to 110 megapascals prevent the growth of all but the most hyperpiezophilic (pressure-loving) organisms. The physiological adaptations required for growth under these conditions are considered to be substantial. Efforts to determine specific adaptations permitting growth at extreme pressures have thus far focused on relatively few gamma-proteob...

Biogeochemistry of deep-sea CO2 vents

Introduction Conclusions References