Out of the dark: transitional subsurface-to-surface microbial diversity in a terrestrial serpentinizing seep (Manleluag, Pangasinan, the Philippines)

Woycheese, K. M.; Meyer-Dombard, D. R.; Cardace, D.; Argayosa, Anacleto M.; Arcilla, Carlo A.

doi:10.3389/fmicb.2015.00044

Cited by 68 publications

(100 citation statements)

References 56 publications

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“…In general, temperatures of all spring sources were elevated relative to air temperatures in January, possibly reflecting values closer to the average ambient temperature or possibly some heating from the geothermal gradient during circulation in the subsurface. The temperature and pH data obtained in this study fall within the ranges of previous studies [ Neal and Stanger , , ; Stanger , ; Boulart et al ., , ; Chavagnac et al ., ] and are in line with investigations of other hyperalkaline spring systems resulting from serpentinization [ Barnes et al ., ; Neal and Shand , ; Cipolli et al ., ; Boschetti and Toscani , ; Marques et al ., ; Boulart et al ., , ; Morrill et al ., ; Monnin et al ., , ; Cardace et al ., ; Woycheese et al ., ]. In general, as pH increases so do the concentrations of reduced species while those of oxidized species decrease.…”

Section: Aqueous Geochemistrymentioning

confidence: 98%

“…The process of serpentinization has attracted considerable attention as a model for how planets support life without photosynthesis, leading to suggestions that water‐rock reactions within terrestrial planets, icy moons, and ocean worlds support microbial habitability in the dark [ Shock , ; Jakosky and Shock , ; McCollom , ; Zolotov and Shock , , ; Cardace and Hoehler , ; Edwards et al ., ]. On Earth, serpentinization yields novel habitats in continental and marine settings, featuring hyperalkaline pH (>11) and extremely reduced conditions [ Barnes et al ., ; Kelley et al ., , ; Salisbury et al ., ; Neal and Shand , ; Cipolli et al ., ; Proskurowski et al ., ; Fryer and Salisbury , ; Boschetti and Toscani , ; Marques et al ., ; Wheat et al ., , ; Lang et al ., ; Paukert et al ., ; Boulart et al ., , ; Morrill et al ., ; Monnin et al ., , ; Cardace et al ., ; Woycheese et al ., ; Miller et al ., ], and may be a mechanism for life to infiltrate deep into subduction zones. Arguments for the ultramafic nature of the crust and upper mantle of the early Earth lead to the suggestion that the emergence of life was hosted in serpentinizing systems [ Sleep et al ., , ; Russell , ; Martin et al ., ; Russell et al ., ; Lane et al ., ; Lane , , ; Lane and Martin , ; Sousa et al ., ; Herschy et al ., ; Martin et al ., ; Weiss et al ., ].…”

Section: Serpentinization As a Link Between Geologic And Biologic Promentioning

confidence: 99%

“…These Class V data can only be taken as suggestions of possible chemolithotrophic metabolisms until more solid evidence is developed. Nevertheless, they point to the possibility for CO oxidation [ Brazelton et al ., ], hydrogen oxidation [ Brazelton et al ., ; Suzuki et al ., ; Tiago and Veríssimo , ; Sánchez‐Murillo et al ., ; Quéméneur et al ., , ; Miller et al ., ], methanogenesis [ Brazelton et al ., ; Blank et al ., ; Sánchez‐Murillo et al ., ; Quéméneur et al ., , ; Baculi et al ., ; Woycheese et al ., ; Miller et al ., ], anaerobic methane oxidation [ Curtis et al ., ; Quéméneur et al ., , ; Miller et al ., ], nitrogen reduction [ Quéméneur et al ., ], sulfate reduction [ Brazelton et al ., ; Blank et al ., ; Tiago and Veríssimo , ; Curtis et al ., ; Quéméneur et al ., ; Postec et al ., ; Miller et al ., ], sulfide oxidation [ Quéméneur et al ., ], and ammonia oxidation [ Quéméneur et al ., , ; Baculi et al ., ]. In addition, Class V evidence for aerobic methanotrophy is offered by Sánchez‐Murillo et al .…”

Section: Molecular Evidence For Microbial Metabolisms From Hyperalkalmentioning

confidence: 99%

“…• Data Set S18 • Data Set S19 Boschetti and Toscani, 2008;Marques et al, 2008;Wheat et al, 2008Wheat et al, , 2010Lang et al, 2010;Paukert et al, 2012;Boulart et al, 2012Boulart et al, , 2013Morrill et al, 2013;Monnin et al, 2014aMonnin et al, , 2014bCardace et al, 2015;Woycheese et al, 2015;Miller et al, 2016], and may be a mechanism for life to infiltrate deep into subduction zones. Arguments for the ultramafic nature of the crust and upper mantle of the early Earth lead to the suggestion that the emergence of life was hosted in serpentinizing systems [Sleep et al, 2004[Sleep et al, , 2011Russell, 2007;Martin et al, 2008;Russell et al, 2010;Lane et al, 2010;Lane, 2010Lane, , 2014Lane and Martin, 2012;Sousa et al, 2013;Herschy et al, 2014;Martin et al, 2014;Weiss et al, 2016].…”

Section: Serpentinization As a Link Between Geologic And Biologic Promentioning

confidence: 99%

See 3 more Smart Citations

Geochemical bioenergetics during low‐temperature serpentinization: An example from the Samail ophiolite, Sultanate of Oman

Canovas

Hoehler

Shock

2017

J. Geophys. Res. Biogeosci.

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Various classes of microbial and biomolecular evidence from global studies in marine and continental settings are used to identify a set of reactions that appear to support microbial metabolism during serpentinization of ultramafic rocks. Geochemical data from serpentinizing ecosystems in the Samail ophiolite of Oman are used to evaluate the extent of disequilibria that can support this set of microbial metabolisms and to provide a ranking of potential metabolic energy sources in hyperalkaline fluids that are direct products of serpentinization. Results are used to construct hypotheses for how microbial metabolism may be supported in the subsurface for two cases: ecosystems hosted in rocks that have already undergone significant serpentinization and those hosted by deeper, active serpentinization processes.

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Section: Aqueous Geochemistrymentioning

confidence: 98%

Section: Serpentinization As a Link Between Geologic And Biologic Promentioning

confidence: 99%

Section: Molecular Evidence For Microbial Metabolisms From Hyperalkalmentioning

confidence: 99%

Section: Serpentinization As a Link Between Geologic And Biologic Promentioning

confidence: 99%

See 2 more Smart Citations

Geochemical bioenergetics during low‐temperature serpentinization: An example from the Samail ophiolite, Sultanate of Oman

Canovas

Hoehler

Shock

2017

J. Geophys. Res. Biogeosci.

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“…Serpentinizing systems are home to streamlined or low diversity/abundance microbial communities with characteristic taxa Suzuki et al, 2013;Tiago and Ver ıssimo, 2013;Mei et al, 2014;Meyer-Dombard et al, 2014;Woycheese et al, 2015). Although terrestrial sites in general contain less abundant populations and less diverse microbial communities than their marine counterparts (likely linked to the availability of terminal electron acceptors), there are common taxa observed at sites with similar geochemical profiles.…”

Section: Introductionmentioning

confidence: 99%

In situ electrochemical enrichment and isolation of a magnetite‐reducing bacterium from a high pH serpentinizing spring

Rowe

Yoshimura

LaRowe

et al. 2017

Environmental Microbiology

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Summary Serpentinization is a geologic process that produces highly reduced, hydrogen‐rich fluids that support microbial communities under high pH conditions. We investigated the activity of microbes capable of extracellular electron transfer in a terrestrial serpentinizing system known as ‘The Cedars’. Measuring current generation with an on‐site two‐electrode system, we observed daily oscillations in current with the current maxima and minima occurring during daylight hours. Distinct members of the microbial community were enriched. Current generation in lab‐scale electrochemical reactors did not oscillate, but was correlated with carbohydrate amendment in Cedars‐specific minimal media. Gammaproteobacteria and Firmicutes were consistently enriched from lab electrochemical systems on δ‐MnO2 and amorphous Fe(OH)3 at pH 11. However, isolation of an electrogenic strain proved difficult as transfer cultures failed to grow after multiple rounds of media transfer. Lowering the bulk pH in the media allowed us to isolate a Firmicutes strain (Paenibacillus sp.). This strain was capable of electrode and mineral reduction (including magnetite) at pH 9. This report provides evidence of the in situ activity of microbes using extracellular substrates as sinks for electrons at The Cedars, but also highlights the potential importance of community dynamics for supporting microbial life through either carbon fixation, and/or moderating pH stress.

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Exploring the metabolic potential of microbial communities in ultra‐basic, reducing springs at The Cedars, CA, USA: Experimental evidence of microbial methanogenesis and heterotrophic acetogenesis

et al. 2016

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Present-day serpentinization generates groundwaters with conditions (pH > 11, Eh < À550 mV) favorable for the microbial and abiotic production of organic compounds from inorganic precursors. Elevated concentrations of methane, C 2 -C 6 alkanes, acetate, and formate have been detected at these sites, but the microbial or abiotic origin of these compounds remains unclear. While geochemical data indicate that methane at most sites of present-day serpentinization is abiogenic, the stable carbon, hydrogen, and clumped isotope data as well as the hydrocarbon gas composition from The Cedars, CA, USA, are consistent with a microbial origin for methane. However, there is no direct evidence of methanogenesis at this site of serpentinization. We report on laboratory experiments in which the microbial communities in fluids and sediments from The Cedars were incubated with 13 C labeled substrates. Increasing methane concentrations and the incorporation of 13 C into methane in live experiments, but not in killed controls, demonstrated that methanogens converted methanol, formate, acetate (methyl group), and bicarbonate to methane. The apparent fractionation between methane and potential substrates (α 13 C CH4-CO2(g) = 1.059 to 1.105, α 13 C CH4-acetate = 1.042 to 1.119) indicated that methanogenesis was dominated by the carbonate reduction pathway. Increasing concentrations of volatile organic acid anions indicated microbial acetogenesis. α 13 C CO2(g)-acetate values (0.999 to 1.000), however, were inconsistent with autotrophic acetogenesis, thus suggesting that acetate was produced through fermentation. This is the first study to show direct evidence of microbial methanogenesis and acetogenesis by the native microbial community at a site of present-day serpentinization.

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Out of the dark: transitional subsurface-to-surface microbial diversity in a terrestrial serpentinizing seep (Manleluag, Pangasinan, the Philippines)

Cited by 68 publications

References 56 publications

Geochemical bioenergetics during low‐temperature serpentinization: An example from the Samail ophiolite, Sultanate of Oman

Geochemical bioenergetics during low‐temperature serpentinization: An example from the Samail ophiolite, Sultanate of Oman

In situ electrochemical enrichment and isolation of a magnetite‐reducing bacterium from a high pH serpentinizing spring

Exploring the metabolic potential of microbial communities in ultra‐basic, reducing springs at The Cedars, CA, USA: Experimental evidence of microbial methanogenesis and heterotrophic acetogenesis

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