Search results for "Ferromanganese"

showing 4 items of 4 documents

Manganese/polymetallic nodules: Micro-structural characterization of exolithobiontic- and endolithobiontic microbial biofilms by scanning electron mi…

2009

Polymetallic/ferromanganese nodules (Mn-nodules) provide a rich source for manganese. It is not yet known if the nodules have a biogenic or an abiogenic origin. Here we applied the technique of high-resolution scanning electron microscopy, in combination with energy dispersive X-ray spectroscopical (EDX) analysis, to trace the existence of microbial biofilms. Two spatially separated assemblies exist, the exolithobiontic- and endolithobiontic colonizations. The exolithobiontic colonization is seen in the micro-canals, which traverse the outer surface layer of the nodules and are formed by elongated filamentous organisms, which show no signs of mineralization. In the center of the nodules thr…

DNA BacterialChemoautotrophic GrowthGeologic SedimentsIronMicroorganismMolecular Sequence DataGeneral Physics and Astronomychemistry.chemical_elementMineralogyManganeseMineralization (biology)Structural BiologyRNA Ribosomal 16SGeneral Materials ScienceEcosystemManganeseBase SequencebiologyFerromanganese nodulesSodiumBiofilmSpectrometry X-Ray EmissionSequence Analysis DNACell BiologyRibosomal RNAbiology.organism_classificationCarbonActinobacteriachemistryBiofilmsMicroscopy Electron ScanningWater MicrobiologyCarbonBacteriaNuclear chemistryMicron
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Concept of Biogenic Ferromanganese Crust Formation: Coccoliths as Bio-seeds in Crusts from Central Atlantic Ocean (Senghor Seamount/Cape Verde)

2011

At depths of 2,000 to 3,000 m, seamounts from the Cape Verde archipelago (Central Atlantic Ocean) are largely covered with ferromanganese crusts. Here we studied 60 to 150 mm thick crusts from the Senghor Seamount (depth: 2257.4 m). The crusts have a non lamellated texture and are covered with spherical nodules. The chemical composition shows a dominance of MnO2 (26.1%) and Fe2O3 (38.8%) with considerable amounts of Co (0.74%) and TiO2 (2.1%). Analysis by scanning electron probe microanalyzer (EPMA) revealed a well defined compositional zonation of micro-layers; the distribution pattern of Mn does not match that of Fe. Analysis by high resolution scanning electron microscopy (SEM) revealed…

Geologic SedimentsIronSeamountGeochemistryPlant ScienceElectron microprobeFerromanganeseCape verdeDrug DiscoveryAtlantic IslandsDominance (ecology)Atlantic OceanChemical compositionPharmacologyManganesegeographygeography.geographical_feature_categoryFossilsHaptophytaCrustGeneral MedicineComplementary and alternative medicineArchipelagoMicroscopy Electron ScanningGeologyElectron Probe MicroanalysisNatural Product Communications
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Mn, Fe, Zn and As speciation in a fast-growing ferromanganese marine nodule

2004

The speciation of Mn, Fe, As and Zn in a fast-growing (0.02mm/yr), shallow-marine ferromanganese nodule has been examined by micro X-ray fluorescence, micro X-ray diffraction, and micro X-ray absorption spectroscopy. This nodule exhibits alternating Fe-rich and Mn-rich layers reflecting redox variations in water chemistry. Fe occurs as two-line ferrihydrite. The As is strictly associated with Fe and is mostly pentavalent, with an environment similar to that of As sorbed on or coprecipitated with synthetic ferrihydrite. The Mn is in the form of turbostratic birnessite with ~;10 percent trivalent manganese in the layers and probably ~;8 percent corner-sharing metal octahedra in the interlayer…

Nodule (geology)BirnessiteXASInorganic chemistrychemistry.chemical_elementManganese010501 environmental sciencesengineering.material010502 geochemistry & geophysics01 natural sciencesFerromanganeseMetalFerrihydriteXAS EXAFS marine ferromanganese nodule Baltic sea speciation[SDU.STU.GC]Sciences of the Universe [physics]/Earth Sciences/GeochemistryGeochemistry and Petrology0105 earth and related environmental sciencesX-ray absorption spectroscopyBaltic seaExtended X-ray absorption fine structureRadiochemistrymarine ferromanganese nodule6. Clean waterEXAFSspeciationchemistryvisual_artEarth Sciencesvisual_art.visual_art_mediumengineeringEnvironmental scienceGeochimica et Cosmochimica Acta
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Ba and Ni speciation in a nodule of binary Mn oxide phase composition from Lake Baikal

2007

The partitioning and incorporation mechanism of Ni and Ba in a ferromanganese nodule from Lake Baikal were characterized by X-ray microfluorescence, microdiffraction, and absorption spectroscopy. Fe is speciated as goethite, and Mn as romanechite (psilomelane) and 10 A ˚ -vernadite (turbostratic buserite) with minor 7 A ˚ -vernadite (turbostratic birnessite). Barium is associated with romanechite and Ni with vernadite in distinct and irregularly distributed layers, and each type of Mn oxide is separated from the other type by goethite. The binary Mn oxide banding pattern is interpreted by a two-mode accretionary model, in which the variation in Ba flux induced by hydrothermal water pulses d…

PsilomelaneGoethiteBirnessiteInorganic chemistrychemistry.chemical_elementBariumManganese010501 environmental sciencesengineering.material010502 geochemistry & geophysics01 natural sciencesFerromanganeseNickelchemistryGeochemistry and PetrologyRomanèchitevisual_artvisual_art.visual_art_mediumengineeringComputingMilieux_MISCELLANEOUS0105 earth and related environmental sciences
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