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Mineralogy and crystal chemistry of Mn, Fe, Co, Ni, and Cu in a deep-sea Pacific polymetallic nodule

  • Alain Manceau EMAIL logo , Martine Lanson and Yoshio Takahashi
Published/Copyright: October 14, 2014
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American Mineralogist
From the journal American Mineralogist Volume 99 Issue 10

Abstract

Minor-element concentrations in marine ferromanganese nodules are primarily controlled by the mineralogy, which itself depends on redox conditions at the sediment-water interface. Results are presented for the first in-depth X-ray microstructural and microspectroscopic investigation of a mixed hydrogenetic-diagenetic nodule, which is representative of ferromanganese deposits on abyssal plains. The measurements were conducted by micro-X-ray diffraction and X-ray absorption spectroscopy (both XANES and EXAFS) on hydrogeneous and diagenetic regions of the nodule. The hydrogeneticdiagenetic interface was imaged by X-ray microfluorescence, after which regions of interest were chosen to represent mineralogical and chemical transformations that occurred at the early stage of suboxic diagenesis. In the hydrogenetic nodule (oxic environment), Mn is speciated as Fe-vernadite, a nanocomposite material composed of intergrown feroxyhite (δ-FeOOH) and monodispersed phyllomanganate layers having no interlayer Mn (vernadite). In the diagenetic nodule (suboxic environment), Mn is speciated dominantly as Mg-rich 10 Å vernadite, which consists of a random intergrowth of vernadite and its transformation product todorokite. The authigenic 10 Å vernadite precipitated from the components of vernadite in Fe-vernadite that were dissolved in suboxic microenvironments of the sediment. Direct evidence supporting a redox-driven dissolution reaction is provided by the valence composition of Mn, as measured by micro-XANES, which is 0.69Mn4++ 0.24Mn3++ 0.07Mn2+ (average = 3.62 ± 0.04 v.u.) for Fe-vernadite and 0.61Mn4+ + 0.23Mn3+ + 0.16Mn2+ (average 3.28 ± 0.04 v.u.) for 10 Å vernadite. Ni and Cu, derived mainly from dissolved vernadite and oxidized organic matter, replace structural Mn3+/4+ in both the MnO2 layer and todorokite domains of 10 Å vernadite. Pure todorokite in highly diagenetic regions of the nodule has an average formula of Mg2+0.167(Mn4+0.783 Mn3+0.099Co3+0.002Ni2+0.076Cu2+0.040)O2·nH2O, with an atomic ratio of (Cu+Ni+Co)/Mn = 0.13, which is slightly lower than 0.167 (⅙), the maximum metal uptake capacity reported for marine nodules. By analogy with synthetic todorokites we infer that Mg2+, which has a hydrated diameter close to that of the [3 × 3] tunnel size of todorokite, and Mn3+ and Cu2+, which prefer Jahn-Teller distorted octahedra, play a crucial role in templating the topotactic transformation of 10 Å vernadite to todorokite and stabilizing todorokite in suboxic marine sediments.

Keywords: Mineralogy; XRD; SXRF; XANES; EXAFS; nickel; copper; vernadite; todorokite; birnessite; phyllomanganate; tectomanganate; ferromanganese nodule; polymetallic nodule; redox reaction
Received: 2013-9-11
Accepted: 2014-4-24
Published Online: 2014-10-14
Published in Print: 2014-10-1

© 2014 by Walter de Gruyter Berlin/Boston

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  2. Highlights and Breakthroughs. Theoretical and applied implications of the structural order of irradiated vermiculite
  3. Highlights and Breakthroughs. An examination of the Ti-in-quartz thermobarometer in rocks that contain dynamically recrystallized quartz: Re-equilibration of [Ti] during recrystallization
  4. The Second Conference on the Lunar Highlands Crust and New Directions. Visible-infrared spectral properties of iron-bearing aluminate spinel under lunar-like redox conditions
  5. The Second Conference on the Lunar Highlands Crust and New Directions. VNIR spectral variability of the igneous stratified Stillwater Complex: A tool to map lunar highlands
  6. The Second Conference on the Lunar Highlands Crust and New Directions. Spinel-rich lithologies in the lunar highland crust: Linking lunar samples with crystallization experiments and remote sensing
  7. The Second Conference on the Lunar Highlands Crust and New Directions. Phosphate-halogen metasomatism of lunar granulite 79215: Impact-induced fractionation of volatiles and incompatible elements
  8. The Second Conference on the Lunar Highlands Crust and New Directions. Reflectance spectroscopy of plagioclase-dominated mineral mixtures: Implications for characterizing lunar anorthosites remotely
  9. The Second Conference on the Lunar Highlands Crust and New Directions. The distribution of Mg-spinel across the Moon and constraints on crustal origin
  10. The occurrence and composition of chevkinite-(Ce) and perrierite-(Ce) in tholeiitic intrusive rocks and lunar mare basalt
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  13. Time-resolved synchrotron X-ray diffraction study of the dehydration behavior of chalcophanite
  14. Ab initio investigations of dioctahedral interlayer-deficient mica: Modeling particles of illite found within gas shale
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  16. In-situ U-Th/Pb geochronology of (urano)thorite
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  34. Letter. Densified glasses as structural proxies for high-pressure melts: Configurational compressibility of silicate melts retained in quenched and decompressed glasses
  35. Letter. Geobarometry from host-inclusion systems: The role of elastic relaxation
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https://doi.org/10.2138/am-2014-4742
Keywords for this article
Mineralogy; XRD; SXRF; XANES; EXAFS; nickel; copper; vernadite; todorokite; birnessite; phyllomanganate; tectomanganate; ferromanganese nodule; polymetallic nodule; redox reaction

Articles in the same Issue

  1. Highlights and Breakthroughs. Pauling’s rules, in a world of non-spherical atoms
  2. Highlights and Breakthroughs. Theoretical and applied implications of the structural order of irradiated vermiculite
  3. Highlights and Breakthroughs. An examination of the Ti-in-quartz thermobarometer in rocks that contain dynamically recrystallized quartz: Re-equilibration of [Ti] during recrystallization
  4. The Second Conference on the Lunar Highlands Crust and New Directions. Visible-infrared spectral properties of iron-bearing aluminate spinel under lunar-like redox conditions
  5. The Second Conference on the Lunar Highlands Crust and New Directions. VNIR spectral variability of the igneous stratified Stillwater Complex: A tool to map lunar highlands
  6. The Second Conference on the Lunar Highlands Crust and New Directions. Spinel-rich lithologies in the lunar highland crust: Linking lunar samples with crystallization experiments and remote sensing
  7. The Second Conference on the Lunar Highlands Crust and New Directions. Phosphate-halogen metasomatism of lunar granulite 79215: Impact-induced fractionation of volatiles and incompatible elements
  8. The Second Conference on the Lunar Highlands Crust and New Directions. Reflectance spectroscopy of plagioclase-dominated mineral mixtures: Implications for characterizing lunar anorthosites remotely
  9. The Second Conference on the Lunar Highlands Crust and New Directions. The distribution of Mg-spinel across the Moon and constraints on crustal origin
  10. The occurrence and composition of chevkinite-(Ce) and perrierite-(Ce) in tholeiitic intrusive rocks and lunar mare basalt
  11. Garnet as a major carrier of the Y and REE in the granitic rocks: An example from the layered anorogenic granite in the Brno Batholith, Czech Republic
  12. Mid-infrared optical constants of clinopyroxene and orthoclase derived from oriented single-crystal reflectance spectra
  13. Time-resolved synchrotron X-ray diffraction study of the dehydration behavior of chalcophanite
  14. Ab initio investigations of dioctahedral interlayer-deficient mica: Modeling particles of illite found within gas shale
  15. Trona at extreme conditions: A pollutant-sequestering material at high pressures and low temperatures
  16. In-situ U-Th/Pb geochronology of (urano)thorite
  17. Temperature-induced amorphization of Na-zeolite A: A view from multi-nuclear high-resolution solid-state NMR
  18. “Silicified” pyrochlore from nepheline syenite (mariupolite) of the Mariupol Massif, SE Ukraine: A new insight into the role of silicon in the pyrochlore structure
  19. Physio-chemical properties of gamma-irradiated vermiculite and their significance for radiation protection and thermoluminescence
  20. Ti resetting in quartz during dynamic recrystallization: Mechanisms and significance
  21. Thermodynamic study of monoclinic pyrrhotite in equilibrium with pyrite in the Ag-Fe-S system by solid-state electrochemical cell technique
  22. Phase diagram and P-V-T equation of state of Al-bearing seifertite at lowermost mantle conditions
  23. Crystal structure of Guinier-Preston zones in orthopyroxene: Z-contrast imaging and ab inito study
  24. Crystal chemistry and surface configurations of two polylithionite-1M crystals
  25. Crystal chemistry of synthetic Ti-Mg-bearing hibonites: A single-crystal X-ray study
  26. Mineralogy and crystal chemistry of Mn, Fe, Co, Ni, and Cu in a deep-sea Pacific polymetallic nodule
  27. Agakhanovite-(Y), ideally (YCa)⃞2KBe3Si12O30, a new milarite-group mineral from the Heftetjern pegmatite, Tørdal, Southern Norway: Description and crystal structure
  28. Actinides in Geology, Energy, and the Environment. Ichnusaite, Th(MoO4)2·3H2O, the first natural thorium molybdate: Occurrence, description, and crystal structure
  29. Actinides in Geology, Energy, and the Environment. Quantification of α-particle radiation damage in zircon
  30. What Lurks in the Martian Rocks and Soil? Investigations of Sulfates, Phosphates, and Perchlorates. Spectral properties of Ca-sulfates: Gypsum, bassanite, and anhydrite
  31. What Lurks in the Martian Rocks and Soil? Investigations of Sulfates, Phosphates, and Perchlorates. Flower-like apatite recording microbial processes through deep geological time and its implication to the search for mineral records of life on Mars
  32. What Lurks in the martian Rocks and Soil? Investigations of Sulfates, Phosphates, and Perchlorates. Gypsum in modern Kamchatka volcanic hot springs and the Lower Cambrian black shale: Applied to the microbial-mediated precipitation of sulfates on Mars
  33. Letter. Identification of hydrogen defects linked to boron substitution in synthetic forsterite and natural olivine
  34. Letter. Densified glasses as structural proxies for high-pressure melts: Configurational compressibility of silicate melts retained in quenched and decompressed glasses
  35. Letter. Geobarometry from host-inclusion systems: The role of elastic relaxation
  36. New Mineral Names
  37. Book Review
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