Comparative Study of Guaymas Basin Microbiomes: Cold Seeps vs. Hydrothermal Vents Sediments

Cruaud, Perrine; Vigneron, Adrien; Pignet, Patricia; Caprais, Jean‐Claude; Lesongeur, Françoise; Toffin, Laurent; Godfroy, Anne; Cambon-Bonavita, Marie-Anne

doi:10.3389/fmars.2017.00417

Cited by 24 publications

(27 citation statements)

References 83 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Comparison with other Sonora Margin cores highlights the seep characteristics of core SeepP06. Based on the presence or absence of major archaeal lineages, SeepP06 archaeal communities are similar to surficial (<1 mbsf) communities from Sonora Margin cold seeps, predominantly comprising Thermoplasmata (MBG-D), Bathyarchaea, and ANME lineages ( Cruaud et al., 2017 ). The SeepP06 archaeal communities share dominant archaeal lineages—the Thermoplasmatales (MBG-D), Lokiarchaeota, and Bathyarchaeota—with Sonora Margin subsurface sediments (core BCK1 [ Vigneron et al., 2014 ]).…”

Section: Discussionmentioning

confidence: 99%

“…Numerous seep sites with carbonate outcrops and cold seep fauna have been observed on an eroding pressure ridge that follows the transform fault at the base of the Sonora Margin ( Simoneit et al., 1990 ; Paull et al., 2007 ); the seep communities at these sites are largely based on methanotrophy and sulfide oxidation ( Portail et al., 2015 ). Seep communities and sulfide-oxidizing microbial mats are also widespread on the Sonora Margin slopes ( Vigneron et al., 2014 ; Cruaud et al., 2017 ).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

The Guaymas Basin Subseafloor Sedimentary Archaeome Reflects Complex Environmental Histories

et al. 2020

View full text Add to dashboard Cite

Summary We explore archaeal distributions in sedimentary subseafloor habitats of Guaymas Basin and the adjacent Sonora Margin, located in the Gulf of California, México. Sampling locations include (1) control sediments without hydrothermal or seep influence, (2) Sonora Margin sediments underlying oxygen minimum zone water, (3) compacted, highly reduced sediments from a pressure ridge with numerous seeps at the base of the Sonora Margin, and (4) sediments impacted by hydrothermal circulation at the off-axis Ringvent site. Generally, archaeal communities largely comprise Bathyarchaeal lineages, members of the Hadesarchaea, MBG-D, TMEG, and ANME-1 groups. Variations in archaeal community composition reflect locally specific environmental challenges. Background sediments are divided into surface and subsurface niches. Overall, the environmental setting and history of a particular site, not isolated biogeochemical properties out of context, control the subseafloor archaeal communities in Guaymas Basin and Sonora Margin sediments.

show abstract

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The Guaymas Basin Subseafloor Sedimentary Archaeome Reflects Complex Environmental Histories

et al. 2020

View full text Add to dashboard Cite

show abstract

“…In deep‐sea cold seeps, hydrocarbons (such as gas hydrate or petroleum), reduced gases (hydrogen sulfide) and carbon dioxide emerge from the seafloor (Sen et al ., 2018). The signature of deep‐sea hydrothermal vents is richness in hydrogen sulfide, carbon monoxide, methane and hydrogen gases, which erupt from these vents (Cruaud et al ., 2017). The most abundant component of the gases emitted from cold seeps is methane (Sen et al ., 2018), while hydrogen sulfide accounts for the greatest proportion of the gases emitted from hydrothermal vents (Cruaud et al ., 2017).…”

Section: Introductionmentioning

confidence: 99%

“…The signature of deep‐sea hydrothermal vents is richness in hydrogen sulfide, carbon monoxide, methane and hydrogen gases, which erupt from these vents (Cruaud et al ., 2017). The most abundant component of the gases emitted from cold seeps is methane (Sen et al ., 2018), while hydrogen sulfide accounts for the greatest proportion of the gases emitted from hydrothermal vents (Cruaud et al ., 2017). Both methane and hydrogen sulfide are reduced gases, in which the central element (carbon or sulfur) is in its lowest valence state, and thus, it can easily lose electrons (Martin et al ., 2008; Nunoura et al ., 2012).…”

Section: Introductionmentioning

confidence: 99%

Artificial construction of the biocoenosis of deep‐sea ecosystem via seeping methane

Sun

Yang

Zheng

et al. 2020

Environmental Microbiology

View full text Add to dashboard Cite

Summary Deep‐sea ecosystems, such as cold seeps and hydrothermal vents, have high biomass, even though they are located in the benthic zone, where no sunlight is present to provide energy for organism proliferation. Based on the coexistence of the reduced gases and chemoautotrophic microbes, it is inferred that the energy from the reduced gases supports the biocoenosis of deep‐sea ecosystems. However, there is no direct evidence to support this deduction. Here, we developed and placed a biocoenosis generator, a device that continuously seeped methane, on the 1000‐m deep‐sea floor of the South China Sea to artificially construct a deep‐sea ecosystem biocoenosis. The results showed that microorganisms, including bacteria and archaea, appeared in the biocoenosis generator first, followed by jellyfish and Gammaridea arthropods, indicating that a biocoenosis had been successfully constructed in the deep sea. Anaerobic methane‐oxidizing archaea, which shared characteristics with the archaea of natural deep‐sea cold seeps, acted as the first electron acceptors of the emitted methane; then, the energy in the electrons was transferred to downstream symbiotic archaea and bacteria and finally to animals. Nitrate‐reducing bacteria served as partners to complete anaerobic oxidation of methane process. Further analysis revealed that viruses coexisted with these organisms during the origin of the deep‐sea biocoenosis. Therefore, our study mimics a natural deep‐sea ecosystem and provides the direct evidence to show that the chemical energy of reduced organic molecules, such as methane, supports the biocoenosis of deep‐sea ecosystems.

show abstract

“…Numerous seep sites with carbonate 74 outcrops and cold seep fauna have been observed on an eroding pressure ridge that follows the 75 transform fault at the base of the Sonora Margin (Simoneit et al, 1990;Paull et al, 2007); the 76 seep communities at these sites are largely based on methanotrophy and sulfide oxidation 77 (Portail et al, 2015). Seep communities and sulfide-oxidizing microbial mats are also 78 widespread on the Sonora Margin slopes (Vigneron et al, 2014;Cruaud et al, 2017). 79…”

Section: Introduction 54mentioning

confidence: 99%

The Guaymas Basin Subseafloor Sedimentary Archaeome Reflects Complex Environmental Histories

Ramírez

McKay

Buckley

et al. 2020

Preprint

View full text Add to dashboard Cite

We explore archaeal distribution and environmental niche differentiation in sedimentary subseafloor habitats of Guaymas Basin and the adjacent Sonora Margin, located in the Gulf of California, México. Specifically, we survey diverse subseafloor habitats on the Guaymas Basin flanking regions that are extending from the spreading center, termed here “off-axis” sites. Sampling locations include (i) control sediments without hydrothermal or seep influence, (ii) Sonora Margin sediments underlying oxygen minimum zone water, (iii) compacted, highly reduced sediments from a pressure ridge with numerous seeps at the base of the Sonora Margin, and (iv) sediments impacted by hydrothermal circulation at the off-axis Ringvent site. Generally, archaeal 16S rRNA gene datasets are largely comprised of Bathyarchaeal lineages, members of the Hadesarchaea, MBG-D, TMEG, and ANME-1 groups. The most frequently observed 25 OTUs belong to members of these lineages, and correspond to approx. 40 to 80% of the sequence dataset in each sediment sample. Differential distribution patterns of these archaeal groups in downcore sediments uniquely characterize each major sedimentary environment. Variations in archaeal community composition reflect locally specific environmental challenges throughout the greater Guaymas Basin area. Background sediments are divided into surface and subsurface niches, reflecting increased selection of the archaeal community downcore. In sum, the environmental setting and history of a particular site, not isolated biogeochemical properties out of context, control the subseafloor archaeal communities in Guaymas Basin and Sonora Margin sediments.

show abstract

Comparative Study of Guaymas Basin Microbiomes: Cold Seeps vs. Hydrothermal Vents Sediments

Cited by 24 publications

References 83 publications

The Guaymas Basin Subseafloor Sedimentary Archaeome Reflects Complex Environmental Histories

The Guaymas Basin Subseafloor Sedimentary Archaeome Reflects Complex Environmental Histories

Artificial construction of the biocoenosis of deep‐sea ecosystem via seeping methane

The Guaymas Basin Subseafloor Sedimentary Archaeome Reflects Complex Environmental Histories

Contact Info

Product

Resources

About