Search results for "Ferruginous"

showing 3 items of 3 documents

Methanotrophy under Versatile Conditions in the Water Column of the Ferruginous Meromictic Lake La Cruz (Spain)

2016

Lakes represent a considerable natural source of methane to the atmosphere compared to their small global surface area. Methanotrophs in sediments and in the water column largely control methane fluxes from these systems, yet the diversity, electron accepting capacity, and nutrient requirements of these microorganisms have only been partially identified. Here, we investigated the role of electron acceptors alternative to oxygen and sulfate in microbial methane oxidation at the oxycline and in anoxic waters of the ferruginous meromictic Lake La Cruz, Spain. Active methane turnover in a zone extending well below the oxycline was evidenced by stable carbon isotope-based rate measurements. We o…

0301 basic medicineMicrobiology (medical)030106 microbiologylcsh:QR1-502MicrobiologyMethanelcsh:Microbiologyanoxic hypolimnion03 medical and health scienceschemistry.chemical_compoundWater columnNitrateSulfateFerruginous; Meromixis; Oxycline; Anoxic hypolimnion; Methane oxidation; Aerobic methanotrophsOriginal ResearchEcologymethane oxidationOxygen evolutionmeromixisferruginousAnoxic watersoxycline030104 developmental biologychemistry13. Climate actionIsotopes of carbonEnvironmental chemistryAnaerobic oxidation of methaneaerobic methanotrophsFrontiers in Microbiology
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Photoferrotrophy: Remains of an Ancient Photosynthesis in Modern Environments

2017

Photoferrotrophy, the process by which inorganic carbon is fixed into organic matter using light as an energy source and reduced iron [Fe(II)] as an electron donor, has been proposed as one of the oldest photoautotrophic metabolisms on Earth. Under the iron-rich (ferruginous) but sulfide poor conditions dominating the Archean ocean, this type of metabolism could have accounted for most of the primary production in the photic zone. Here we review the current knowledge of biogeochemical, microbial and phylogenetic aspects of photoferrotrophy, and evaluate the ecological significance of this process in ancient and modern environments. From the ferruginous conditions that prevailed during most …

0301 basic medicineMicrobiology (medical)Biogeochemical cycle030106 microbiologyReviewChemoclineMicrobiology03 medical and health sciencesferruginous conditionsevolutionPhotic zone14. Life underwaterArchean oceanPrimary producersbiologyphotoferrotrophyEcologyBiosphereBiogeochemistryiron-rich meromictic lakes15. Life on landbiology.organism_classification030104 developmental biology13. Climate actionGreen sulfur bacteriaEnvironmental scienceanoxygenic phototrophsEnergy sourceFrontiers in Microbiology
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Interspecies interactions mediated by conductive minerals in the sediments of the ferruginous Lake La Cruz, Spain

2018

AbstractLake La Cruz is considered a biogeochemical analogue to early Earth marine environments because its water column is depleted in sulfate, but rich in methane and iron, similar to conditions envisaged for much of the Precambrian. In this early Earth analogue environment, we show that conductive particles establish a tight metabolic coupling between electroactive microbial clades. We propose that mineral-based syntrophy is of potential relevance for the evolution of Earth’s earliest complex life forms. We show that the anoxic sediment of Lake La Cruz, which is rich in biogeochemically ‘reactive’ iron minerals, harbors known electroactive species such asGeobacterandMethanothrix,in addit…

Biogeochemical cyclemagnetitedirect interspecies electron transfer (DIET)granular activated carbonMethanothrixMethanothrix03 medical and health scienceschemistry.chemical_compoundWater columnSyntrophymineral mediated syntrophy14. Life underwaterSulfate030304 developmental biology0303 health sciencesbiology030306 microbiologySediment15. Life on landbiology.organism_classificationAnoxic watersferruginous lakeconductive particleschemistry13. Climate actionEnvironmental chemistryYoungiibacterGeobacterGeobacter
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