Desulfovibrio profundus sp. nov., a Novel Barophilic Sulfate-Reducing Bacterium from Deep Sediment Layers in the Japan Sea

The subsurface realm is colonized by microbial communities to depths of 41000 meters below the seafloor (m.b.sf.), but little is known about overall diversity and microbial distribution patterns at the most profound depths. Here we show that not only Bacteria and Archaea but also Eukarya occur at record depths in the subseafloor of the Canterbury Basin. Shifts in microbial community composition along a core of nearly 2 km reflect vertical taxa zonation influenced by sediment depth. Representatives of some microbial taxa were also cultivated using methods mimicking in situ conditions. These results suggest that diverse microorganisms persist down to 1922 m.b.sf. in the seafloor of the Canterbury Basin and extend the previously known depth limits of microbial evidence (i) from 159 to 1740 m.b.sf. for Eukarya and (ii) from 518 to 1922 m.b.sf. for Bacteria.

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“…(Bale et al, 1997), active Archaea down to 1626 m.b.sf. (Roussel et al, 2008) and active microeukaryotes down to 159 m.b.sf.…”

Section: Introductionmentioning

confidence: 99%

Microorganisms persist at record depths in the subseafloor of the Canterbury Basin

et al. 2014

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“…The one Vibrio sp. isolate from the sediment column (0.67 mbsf) adds to the database of other sediment-dwelling microbes isolated from deeper than 0.5 mbsf (Bale et al, 1997;Toffin et al, 2004). Further, the characterization of these isolates increases the numbers of described species for these genera and provides information on their production of coldactive enzymes of possible industrial interest.…”

Section: Discussionmentioning

confidence: 99%

“…Although there have been a number of studies on this environment, there are still microbial ecosystems to explore, especially in regions of deep sediment environments. With a few exceptions (Wang et al, 2004), analyses of deep sediment column samples have studied either environmental deoxyribonucleic acid (DNA) Inagaki et al, 2003;Kormas et al, 2003;Newberry et al, 2004) or have cultivated organisms at temperatures higher than those in situ (Bale et al, 1997;Mikucki et al, 2003;Toffin et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

Enrichment and Cultivation of Microorganisms from Sediment from the Slope of the Peru Trench (ODP Site 1230)

Biddle

House

Brenchley

2005

Proceedings of the Ocean Drilling Program, 201 Scientific Results

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The deep biosphere is estimated to hold a significant percentage of the Earth's prokaryotic biomass; however, little is known about the organisms in this environment. Here, we describe investigations of the diversity of microorganisms enriched from surface and subsurface sediment collected during Leg 201 of the Ocean Drilling Program at Site 1230 on the slope of the Peru Trench. This site contains methane hydrates, high levels of organic matter, and high direct cell counts, all of which indicate the potential for thriving microbial populations. To investigate these populations, we examined prokaryotes in samples from seafloor to 258 meters below seafloor (mbsf) using both cultivation and molecular methods. From seafloor samples, we cultivated isolates representing the genera Photobacterium, Shewanella, and Halomonas. The population found in an enrichment cultivated at low temperatures, 0.67 mbsf, contained many cell morphologies and deoxyribonucleic acid (DNA) signatures, but this population, except for a Vibrio sp., was difficult to separate and grow as pure cultures. Most isolates produced extracellular lytic enzymes that were active at low temperatures. Methanogens have been expected to play a large role in the creation of methane hydrates in the sediment; therefore, we also attempted to enrich for psychrophilic methanogens. No methane was found above background levels in anaerobic enrichments incubated for 2 yr, nor was any 16S ribosomal DNA detected following amplification using archaeal primers with DNA extracted from these incubated cultures. These results illus-1 Biddle, J.F., House, C.H., and Brenchley, J.E., 2005. Enrichment and cultivation of microorganisms from sediment from the slope of the Peru Trench (ODP Site 1230).

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“…Many studies have clarified the widespread occurrence of great functional and phylogenetic diversity of prokaryotes in global deep subseafloor sedimentary environments, most of which are as-yet-uncultivated members from other microbial habitats (as reviewed by Fry et al, 2008;Inagaki & Nakagawa, 2008;Inagaki, 2010;Jørgensen & Boetius, 2007;Parkes et al, 2000;Teske, 2006). Despite the great phylogenetic and functional diversity being evident, very few micro-organisms have been described from deep or even shallow subseafloor sediments (Bale et al, 1997;Kendall et al, 2006;Lee et al, 2005;Mikucki et al, 2003;Takai et al, 2005;Toffin et al, 2004).…”

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confidence: 99%

Sunxiuqinia faeciviva sp. nov., a facultatively anaerobic organoheterotroph of the Bacteroidetes isolated from deep subseafloor sediment

Takai

Abe

Miyazaki

et al. 2013

International Journal of Systematic and Evolutionary Microbiology

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A facultatively anaerobic organoheterotroph, designated JAM-BA0302 T , was isolated from a deep subseafloor sediment at a depth of 247.1 m below the seafloor off the Shimokita Peninsula of Japan in the north-western Pacific Ocean (Site C9001 , water depth 1180 m). Cells of strain JAM-BA0302 T showed gliding motility and were thin, long rods with peritrichous fimbriae-like structures. Growth occurred at 4-37 6C (optimum 30 6C; doubling time 8 h), at pH 5.4-8.3 (optimum pH 7.5) and with 5-60 g NaCl l "1 (optimum 20-25 g l "1 ). The isolate utilized proteinaceous substrates such as yeast extract, tryptone, casein and Casamino acids with O 2 respiration or fermentation. Strain JAM-BA0302 T was a piezotolerant bacterium that could grow at pressures as high as 25 MPa under aerobic conditions and 10 MPa under anaerobic conditions. The G+C content of the genomic DNA was 43.2 mol%. Phylogenetic analysis based on 16S rRNA gene sequences indicated that strain JAM-BA0302 T was most closely related to yet-undescribed strains recently isolated from various marine sedimentary environments (.99.6 % 16S rRNA gene sequence similarity) and was moderately related to Sunxiuqinia elliptica DQHS-4 T , isolated from a sea cucumber farm sediment (95.5 % 16S rRNA gene sequence similarity) within the Bacteroidetes. The phylogenetic analysis suggested that the isolate should belong to the genus Sunxiuqinia. However, low DNA-DNA relatedness (,11 %) and many physiological and molecular properties differentiated the isolate from those previously described. We propose here a novel species of the genus Sunxiuqinia, with the name Sunxiuqinia faeciviva sp. nov. The type strain is

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Desulfovibrio profundus sp. nov., a Novel Barophilic Sulfate-Reducing Bacterium from Deep Sediment Layers in the Japan Sea

Cited by 205 publications

References 44 publications

Microorganisms persist at record depths in the subseafloor of the Canterbury Basin

Microorganisms persist at record depths in the subseafloor of the Canterbury Basin

Enrichment and Cultivation of Microorganisms from Sediment from the Slope of the Peru Trench (ODP Site 1230)

Sunxiuqinia faeciviva sp. nov., a facultatively anaerobic organoheterotroph of the Bacteroidetes isolated from deep subseafloor sediment

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