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1.
Geobiology ; 10(2): 178-92, 2012 Mar.
Article in English | MEDLINE | ID: mdl-22221398

ABSTRACT

We deployed sediment traps adjacent to two active hydrothermal vents at 9°50'N on the East Pacific Rise (EPR) to assess the variability in bacterial community structure associated with plume particles on the timescale of weeks to months, to determine whether an endemic population of plume microbes exists, and to establish ecological relationships between bacterial populations and vent chemistry. Automated rRNA intergenic spacer analysis (ARISA) indicated that there are separate communities at the two different vents and temporal community variations between each vent. Correlation analysis between chemistry and microbiology indicated that shifts in the coarse particulate (>1 mm) Fe/(Fe+Mn+Al), Cu, V, Ca, Al, (232) Th, and Ti as well as fine-grained particulate (<1 mm) Fe/(Fe+Mn+Al), Fe, Ca, and Co are reflected in shifts in microbial populations. 16S rRNA clone libraries from each trap at three time points revealed a high percentage of Epsilonproteobacteria clones and hyperthermophilic Aquificae. There is a shift toward the end of the experiment to more Gammaproteobacteria and Alphaproteobacteria, many of whom likely participate in Fe and S cycling. The particle-attached plume environment is genetically distinct from the surrounding seawater. While work to date in hydrothermal environments has focused on determining the microbial communities on hydrothermal chimneys and the basaltic lavas that form the surrounding seafloor, little comparable data exist on the plume environment that physically and chemically connects them. By employing sediment traps for a time-series approach to sampling, we show that bacterial community composition on plume particles changes on timescales much shorter than previously known.


Subject(s)
Bacteria/classification , Hydrothermal Vents/microbiology , Seawater/microbiology , Bacteria/genetics , Biodiversity , Cloning, Molecular , DNA, Bacterial/analysis , DNA, Bacterial/genetics , DNA, Bacterial/isolation & purification , Ecosystem , Epsilonproteobacteria/classification , Epsilonproteobacteria/genetics , Gammaproteobacteria/classification , Gammaproteobacteria/genetics , Gene Library , Hydrothermal Vents/chemistry , Molecular Sequence Data , Phylogeny , RNA, Ribosomal, 16S/genetics , Seawater/chemistry , Sequence Analysis, DNA , Time Factors
2.
ISME J ; 5(11): 1748-58, 2011 Nov.
Article in English | MEDLINE | ID: mdl-21544100

ABSTRACT

A novel hydrothermal field has been discovered at the base of Loihi Seamount, Hawaii, at 5000 mbsl. Geochemical analyses demonstrate that 'FeMO Deep', while only 0.2 °C above ambient seawater temperature, derives from a distal, ultra-diffuse hydrothermal source. FeMO Deep is expressed as regional seafloor seepage of gelatinous iron- and silica-rich deposits, pooling between and over basalt pillows, in places over a meter thick. The system is capped by mm to cm thick hydrothermally derived iron-oxyhydroxide- and manganese-oxide-layered crusts. We use molecular analyses (16S rDNA-based) of extant communities combined with fluorescent in situ hybridizations to demonstrate that FeMO Deep deposits contain living iron-oxidizing Zetaproteobacteria related to the recently isolated strain Mariprofundus ferroxydans. Bioenergetic calculations, based on in-situ electrochemical measurements and cell counts, indicate that reactions between iron and oxygen are important in supporting chemosynthesis in the mats, which we infer forms a trophic base of the mat ecosystem. We suggest that the biogenic FeMO Deep hydrothermal deposit represents a modern analog for one class of geological iron deposits known as 'umbers' (for example, Troodos ophilolites, Cyprus) because of striking similarities in size, setting and internal structures.


Subject(s)
Hydrothermal Vents/microbiology , Iron/metabolism , Proteobacteria/classification , Proteobacteria/isolation & purification , Seawater/microbiology , DNA, Bacterial/genetics , DNA, Ribosomal/genetics , Hawaii , Oxidation-Reduction , Proteobacteria/genetics , Proteobacteria/metabolism , Seawater/chemistry , Temperature
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