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Crossroads in Earth and Planetary Materials. Block-by-block and layer-by-layer growth modes in coral skeletons

  • Jonathan Perrin EMAIL logo , Daniel Vielzeuf , Angèle Ricolleau , Hervé Dallaporta , Solène Valton and Nicole Floquet
Published/Copyright: April 3, 2015
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American Mineralogist
From the journal American Mineralogist Volume 100 Issue 4

Abstract

Understanding the dynamics of biomineral growth is a challenging goal of biomineralogy that can be achieved in part by deciphering biomineral structures and chemistries. The morphology, structure, and chemistry of six skeletons of Corallium and Paracorallium species (C. rubrum, C. elatius, C. johnsoni, C. niobe, P. japonicum, and P. thrinax) from the Mediterranean, the Atlantic, and the Pacific oceans have been studied by X-ray micro-computed tomography, polarized light microscope, scanning electron microscope, and electron microprobe. All species have two types of biomineral structures: an inner skeleton and sclerites that are small grains of Mg-calcite found in the living tissues surrounding the skeleton. All skeletons display a central core surrounded by an annular domain. In the species studied by electron microprobe (C. rubrum, C. elatius, and P. japonicum), the central core and the annular domains display different chemical compositions with the core richer in magnesium and poorer in sulfur than the annular domain. In terms of structure, special emphasis has been put on central cores for which little data are available. The central cores are made of sclerites and sclerite aggregates within a cement consisting of fine layers of Mg-calcite. On the other hand, the annular parts are made of fine concentric layers of calcite crystallites with only rare sclerites. These contrasting features imply two different growth modes: (1) a “block and cement” mode taking place at the apex of a branch and associated with a fast axial growth rate (~2 mm/yr); and (2) a layer-by-layer mode occurring below the apex and associated with a slow radial growth (~0.2 mm/yr). The change from a growth mode to another is anatomically controlled by the presence of a continuous network of gastrodermal canals around the sub-apical skeleton, preventing to a large extent the aggregation of sclerites. It is generally accepted that the Coralliidae family exhibits different types of skeletogeneses. In contrast with this idea, we observe that all studied Corallium species display remarkable similarities in terms of skeletogenesis and a unifying growth model for the Corallium genus is proposed. Similarities and differences with previous models are discussed. The present study shows that the morphological criterion initially used to establish the genus Paracorallium in the Coralliidae family is inadequate.

Keywords : Corallium; rubrum; japonicum; johnsoni; skeletogenesis; block and cement; layer-bylayer; biomineral growth
Received: 2014-3-31
Accepted: 2014-10-8
Published Online: 2015-4-3
Published in Print: 2015-4-1

© 2015 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.2138/am-2015-4990
Keywords for this article
Corallium; rubrum; japonicum; johnsoni; skeletogenesis; block and cement; layer-bylayer; biomineral growth

Articles in the same Issue

  1. Highlights and Breakthroughs. Clays are messy—also on Mars
  2. Highlights and Breakthroughs. Tweed, Twins, and Holes: A link between mineralogy and materials science
  3. Highlights and Breakthroughs. Bursting the bubble of melt inclusions
  4. Review. Mineralogy, materials science, energy, and environment: A 2015 perspective
  5. Crossroads in Earth and Planetary Materials. Block-by-block and layer-by-layer growth modes in coral skeletons
  6. Roebling Medal Paper. Toward theoretical mineralogy: A bond-topological approach
  7. Investigating Petrologic Indicators of Magmatic Processes in Volcanic Rocks. Petalite under pressure: Elastic behavior and phase stability
  8. Investigating Petrologic Indicators of Magmatic Processes in Volcanic Rocks. Pre-eruptive magma mixing and crystal transfer revealed by phenocryst and microlite compositions in basaltic andesite from the 2008 eruption of Kasatochi Island volcano
  9. What Lurks in the Martian Rocks and Soil? Investigations of Sulfates, Phosphates, and Perchlorates. Akaganéite and schwertmannite: Spectral properties and geochemical implications of their possible presence on Mars
  10. Special Collection: Mechanisms, Rates, and Timescales of Geochemical Transport Processes in the Crust and Mantle. Timescales of exhumation and cooling inferred by kinetic modeling: An example using a lamellar garnet pyroxenite from the Variscan Granulitgebirge, Germany
  11. Special Collection: Glasses, Melts, and Fluids, as Tools for Understanding Volcanic Processes and Hazards. Constraints on the origin of sub-effusive nodules from the Sarno (Pomici di Base) eruption of Mt. Somma-Vesuvius (Italy) based on compositions of silicate-melt inclusions and clinopyroxene
  12. Special Collection: Glasses, Melts, and Fluids, as Tools for Understanding Volcanic Processes and Hazards. Experiments and models on H2O retrograde solubility in volcanic systems
  13. Special Collection: Glasses, Melts, and Fluids, as Tools for Understanding Volcanic Processes and Hazards. Melt inclusion CO2 contents, pressures of olivine crystallization, and the problem of shrinkage bubbles
  14. Special Collection: Glasses, Melts, and Fluids, as Tools for Understanding Volcanic Processes and Hazards. Spatio-temporal constraints on magma storage and ascent conditions in a transtensional tectonic setting: The case of the Terceira Island (Azores)
  15. Special Collection: Glasses, Melts, and Fluids, as Tools for Understanding Volcanic Processes and Hazards. Bubbles matter: An assessment of the contribution of vapor bubbles to melt inclusion volatile budgets
  16. The origin and implications of clay minerals from Yellowknife Bay, Gale crater, Mars
  17. The whole-block approach to measuring hydrogen diffusivity in nominally anhydrous minerals
  18. Atom probe tomography of isoferroplatinum
  19. Structural investigation of (130) twins and rutile precipitates in chrysoberyl crystals from Rio das Pratinhas in Bahia (Brazil)
  20. Carbon speciation in silicate-C-O-H melt and fluid as a function of redox conditions: An experimental study, in situ to 1.7 GPa and 900 °C
  21. Kinetic behavior of partially dehydroxylated kaolinite
  22. The fall and rise of metamorphic zircon
  23. Eckermannite revised: The new holotype from the Jade Mine Tract, Myanmar—crystal structure, mineral data, and hints on the reasons for the rarity of eckermannite
  24. In-situ oxygen isotope and trace element geothermometry of rutilated quartz from Alpine fissures
  25. Synchrotron micro-spectroscopic examination of Indonesian nickel laterites
  26. Density functional investigation of the thermo-physical and thermo-chemical properties of 2M1 muscovite
  27. Complex IR spectra of OH groups in silicate glasses: Implications for the use of the 4500 cm–1 IR peak as a marker of OH groups concentration
  28. Versatile Monazite: Resolving Geological Records and Solving Challenges in Materials Science. Monazite, zircon, and garnet growth in migmatitic pelites as a record of metamorphism and partial melting in the East Humboldt Range, Nevada
  29. The Second Conference on the Lunar Highlands Crust and New Directions. Revised mineral and Mg# maps of the Moon from integrating results from the Lunar Prospector neutron and gamma-ray spectrometers with Clementine spectroscopy
  30. The Second Conference on the Lunar Highlands Crust and New Directions. Low-pressure crystallization of a volatile-rich lunar basalt: A means for producing local anorthosites?
  31. Fluids in the Crust. Experimental constraints on fluid-rock reactions during incipient serpentinization of harzburgite
  32. Minerals in the human body. Crystal chemical and structural modifications of erionite fibers leached with simulated lung fluids
  33. Letter. Competition between two redox states in silicate melts: An in-situ experiment at the Fe K-edge and Eu L3-edge
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