Abstract

The evolution of marine microbes over billions of years predicts that the composition of microbial communities should be much greater than the published estimates of a few thousand distinct kinds of microbes per liter of seawater. By adopting a massively parallel tag sequencing strategy, we show that bacterial communities of deep water masses of the North Atlantic and diffuse flow hydrothermal vents are one to two orders of magnitude more complex than previously reported for any microbial environment. A relatively small number of different populations dominate all samples, but thousands of low-abundance populations account for most of the observed phylogenetic diversity. This “rare biosphere” is very ancient and may represent a nearly inexhaustible source of genomic innovation. Members of the rare biosphere are highly divergent from each other and, at different times in earth's history, may have had a profound impact on shaping planetary processes.

Keywords

BiosphereHydrothermal ventPhylogenetic diversityAbundance (ecology)SeawaterBiologyEcologyEarth scienceMicrobial population biologyPhylogeneticsAstrobiologyEvolutionary biologyHydrothermal circulationPaleontologyGeologyBacteria

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Year
2006
Type
article
Volume
103
Issue
32
Pages
12115-12120
Citations
3691
Access
Closed

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Mitchell L. Sogin, Hilary G. Morrison, Julie A. Huber et al. (2006). Microbial diversity in the deep sea and the underexplored “rare biosphere”. Proceedings of the National Academy of Sciences , 103 (32) , 12115-12120. https://doi.org/10.1073/pnas.0605127103

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DOI
10.1073/pnas.0605127103