Mason, Olivia U. et al. (2010): First investigation of the microbiology of the deepest layer of ocean crust

Leg/Site/Hole:
IODP 304 U1309
IODP 305 U1309
Identifier:
2011-010435
georefid

10.1371/journal.pone.0015399
doi

Creator:
Mason, Olivia U.
Oregon State University, College of Oceanic and Atmospheric Sciences, Corvallis, OR, United States
author

Nakagawa, Tatsunori
Tohoku University, Japan
author

Rosner, Martin
Universitaet Bremen, Germany
author

Van Nostrand, Joy D.
University of Oklahoma, United States
author

Zhou, Jizhong
National Institute of Advanced Industrial Science and Technology, Japan
author

Maruyama, Akihiko
Oregon State University, United States
author

Fisk, Martin R.
author

Giovannoni, Stephen J.
author

Identification:
First investigation of the microbiology of the deepest layer of ocean crust
2010
PloS One
Public Library of Science, San Francisco, CA, United States
2010
E15399
The gabbroic layer comprises the majority of ocean crust. Opportunities to sample this expansive crustal environment are rare because of the technological demands of deep ocean drilling; thus, gabbroic microbial communities have not yet been studied. During the Integrated Ocean Drilling Program Expeditions 304 and 305, igneous rock samples were collected from 0.45-1391.01 meters below seafloor at Hole 1309D, located on the Atlantis Massif (30 degrees N, 42 degrees W). Microbial diversity in the rocks was analyzed by denaturing gradient gel electrophoresis and sequencing (Expedition 304), and terminal restriction fragment length polymorphism, cloning and sequencing, and functional gene microarray analysis (Expedition 305). The gabbroic microbial community was relatively depauperate, consisting of a low diversity of proteobacterial lineages closely related to Bacteria from hydrocarbon-dominated environments and to known hydrocarbon degraders, and there was little evidence of Archaea. Functional gene diversity in the gabbroic samples was analyzed with a microarray for metabolic genes ("GeoChip"), producing further evidence of genomic potential for hydrocarbon degradation--genes for aerobic methane and toluene oxidation. Genes coding for anaerobic respirations, such as nitrate reduction, sulfate reduction, and metal reduction, as well as genes for carbon fixation, nitrogen fixation, and ammonium-oxidation, were also present. Our results suggest that the gabbroic layer hosts a microbial community that can degrade hydrocarbons and fix carbon and nitrogen, and has the potential to employ a diversity of non-oxygen electron acceptors. This rare glimpse of the gabbroic ecosystem provides further support for the recent finding of hydrocarbons in deep ocean gabbro from Hole 1309D. It has been hypothesized that these hydrocarbons might originate abiotically from serpentinization reactions that are occurring deep in the Earth's crust, raising the possibility that the lithic microbial community reported here might utilize carbon sources produced independently of the surface biosphere.
English
Serial
Coverage:Geographic coordinates:
North:30.1100
West:-42.0700East: -42.0600
South:30.1000

Igneous and metamorphic petrology; Isotope geochemistry; aliphatic hydrocarbons; alkanes; Atlantic Ocean; bacteria; C-13/C-12; carbon; communities; crust; Expeditions 304/305; gabbros; genes; hydrocarbons; igneous rocks; Integrated Ocean Drilling Program; IODP Site U1309; isotope ratios; isotopes; living taxa; methane; Mid-Atlantic Ridge; North Atlantic; oceanic crust; organic compounds; plutonic rocks; stable isotopes;

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