Metagenomic identification of active methanogens and methanotrophs in serpentinite springs of the Voltri Massif, Italy

Brazelton, William J.; Thornton, Christopher N; Hyer, Alex; Twing, Katrina I.; Longino, August; Lang, Susan Q.; Lilley, Marvin D.; Früh-Green, Gretchen L.; Schrenk, M. O.

doi:10.7717/peerj.2945

Cited by 77 publications

(117 citation statements)

References 81 publications

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“…The cell densities in the IODP Expedition 357 drill cores are distinctly lower than in the actively venting Lost City carbonate towers (10 7 to 10 8 per gram of wet weight; Kelley et al, 2005). They are also low in comparison to cell densities in fluids sampled in actively serpentinizing environments on land, which are typically less than 10 5 cells ml -1 , and as low as 10 2 cells mL -1 , although continental sites of serpentinization represent different niches within the subsurface ecosystem (e.g., Schrenk et al, 2013;Brazelton et al, 2017). These cell densities are also lower than in mafic subseafloor cores, which have been estimated at ~10 4 cells per gram of rock (Jørgensen and Zhao, 2016).…”

Section: Microbiology Samplingmentioning

confidence: 97%

Magmatism, serpentinization and life: Insights through drilling the Atlantis Massif (IODP Expedition 357)

Früh-Green

Orcutt

Rouméjon

et al. 2018

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Section: Microbiology Samplingmentioning

confidence: 97%

Magmatism, serpentinization and life: Insights through drilling the Atlantis Massif (IODP Expedition 357)

Früh-Green

Orcutt

Rouméjon

et al. 2018

Lithos

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“…Geochemical features and microbial taxonomic diversities of various serpentinization sites have been described previously (Brazelton et al, 2010(Brazelton et al, , 2013Tiago and Verissimo, 2013;Quéméneur et al, 2014Quéméneur et al, , 2015Sanchez-Murillo et al, 2014;Postec et al, 2015;Miller et al, 2016). In addition, several metagenomic studies of serpentinization sites have further described the presence of genes related to the methane and hydrogen cycling in the serpentinizing systems (Brazelton and Baross, 2009;Brazelton et al, 2012Brazelton et al, , 2016. However, life strategies used by the majority of microbial community members living in the serpentinization systems remain elusive, especially for the members associated with the deep subsurface serpentinization.…”

Section: Introductionmentioning

confidence: 93%

Unusual metabolic diversity of hyperalkaliphilic microbial communities associated with subterranean serpentinization at The Cedars

et al. 2017

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Water from The Cedars springs that discharge from serpentinized ultramafic rocks feature highly basic (pH=~12), highly reducing (E<-550 mV) conditions with low ionic concentrations. These conditions make the springs exceptionally challenging for life. Here, we report the metagenomic data and recovered draft genomes from two different springs, GPS1 and BS5. GPS1, which was fed solely by a deep groundwater source within the serpentinizing system, was dominated by several bacterial taxa from the phyla OD1 ('Parcubacteria') and Chloroflexi. Members of the GPS1 community had, for the most part, the smallest genomes reported for their respective taxa, and encoded only archaeal (A-type) ATP synthases or no ATP synthases at all. Furthermore, none of the members encoded respiration-related genes and some of the members also did not encode key biosynthesis-related genes. In contrast, BS5, fed by shallow water, appears to have a community driven by hydrogen metabolism and was dominated by a diverse group of Proteobacteria similar to those seen in many terrestrial serpentinization sites. Our findings indicated that the harsh ultrabasic geological setting supported unexpectedly diverse microbial metabolic strategies and that the deep-water-fed springs supported a community that was remarkable in its unusual metagenomic and genomic constitution.

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“…In situ microbial communities may utilize the products of serpentinization-including methane, carbon monoxide, formate, and acetate-as sources of carbon (14,(20)(21)(22)(23)(24)(25). Microbial communities in serpentinite springs in the Voltri Massif, Italy, appear to perform both aerobic methanotrophy and methanogenesis using CO 2 liberated from acetate (26). Methanogens in The Cedars, CA, are capable of producing methane from both inorganic carbon and a variety of organic carbon substrates.…”

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Carbon Assimilation Strategies in Ultrabasic Groundwater: Clues from the Integrated Study of a Serpentinization-Influenced Aquifer

et al. 2020

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Serpentinization is a low-temperature metamorphic process by which ultramafic rock chemically reacts with water. Such reactions provide energy and materials that may be harnessed by chemosynthetic microbial communities at hydrothermal springs and in the subsurface. However, the biogeochemistry mediated by microbial populations that inhabit these environments is understudied and complicated by overlapping biotic and abiotic processes. We applied metagenomics, metatranscriptomics, and untargeted metabolomics techniques to environmental samples taken from the Coast Range Ophiolite Microbial Observatory (CROMO), a subsurface observatory consisting of 12 wells drilled into the ultramafic and serpentinite mélange of the Coast Range Ophiolite in California. Using a combination of DNA and RNA sequence data and mass spectrometry data, we found evidence for several carbon fixation and assimilation strategies, including the Calvin-Benson-Bassham cycle, the reverse tricarboxylic acid cycle, the reductive acetyl coenzyme A (acetyl-CoA) pathway, and methylotrophy, in the microbial communities inhabiting the serpentinite-hosted aquifer. Our data also suggest that the microbial inhabitants of CROMO use products of the serpentinization process, including methane and formate, as carbon sources in a hyperalkaline environment where dissolved inorganic carbon is unavailable. IMPORTANCE This study describes the potential metabolic pathways by which microbial communities in a serpentinite-influenced aquifer may produce biomass from the products of serpentinization. Serpentinization is a widespread geochemical process, taking place over large regions of the seafloor and at continental margins, where ancient seafloor has accreted onto the continents. Because of the difficulty in delineating abiotic and biotic processes in these environments, major questions remain related to microbial contributions to the carbon cycle and physiological adaptation to serpentinite habitats. This research explores multiple mechanisms of carbon fixation and assimilation in serpentinite-hosted microbial communities.

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Metagenomic identification of active methanogens and methanotrophs in serpentinite springs of the Voltri Massif, Italy

Cited by 77 publications

References 81 publications

Magmatism, serpentinization and life: Insights through drilling the Atlantis Massif (IODP Expedition 357)

Magmatism, serpentinization and life: Insights through drilling the Atlantis Massif (IODP Expedition 357)

Unusual metabolic diversity of hyperalkaliphilic microbial communities associated with subterranean serpentinization at The Cedars

Carbon Assimilation Strategies in Ultrabasic Groundwater: Clues from the Integrated Study of a Serpentinization-Influenced Aquifer

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