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Multilevel modular mesocrystalline organization in red coral

Vielzeuf, Daniel and Floquet, Nicole and Chatain, Dominique and Bonneté, Françoise and Ferry, Daniel and Garrabou, Joaquim and Stolper, Edward M. (2010) Multilevel modular mesocrystalline organization in red coral. American Mineralogist, 95 (2-3). pp. 242-248. ISSN 0003-004X. doi:10.2138/am.2010.3268.

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Biominerals can achieve complex shapes as aggregates of crystalline building blocks. In the red coral skeleton, we observe that these building blocks are arranged into eight hierarchical levels of similarly (but not identically) oriented modules. The modules in each hierarchical level assemble into larger units that comprise the next higher level of the hierarchy, and consist themselves of smaller, oriented modules. EBSD and TEM studies show that the degree of crystallographic misorientation between the building blocks decreases with decreasing module size. We observe this organization down to a few nanometers. Thus, the transition from imperfect crystallographic order at millimeter scale to nearly perfect single crystalline domains at nanometer scale is progressive. The concept of "mesocrystal" involves the three-dimensional crystallographic organization of nanoparticles into a highly ordered mesostructure. We add to this concept the notion of "multilevel modularity." This modularity has potential implications for the origin of complex biomineral shapes in nature. A multilevel modular organization with small intermodular misorientations combines a simple construction scheme, ruled by crystallographic laws, with the possibility of complex shapes. If the observations we have made on red coral extend to other biominerals, long-range crystallographic order and interfaces at all scales may be key to how some biominerals achieve complex shapes adapted to the environment in which they grow.

Item Type:Article
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URLURL TypeDescription
Floquet, Nicole0000-0003-2620-256X
Stolper, Edward M.0000-0001-8008-8804
Additional Information:© 2010 Mineralogical Society of America. Manuscript received April 10, 2009; manuscript accepted October 13, 2009; manuscript handled by Nita Sahai. This work has been supported by Centre National de la Recherche Scientifique (CNRS), Institut National des Sciences de l’Univers (INSU) through grants ECLIPSE 2005, INTERRVIE 2009, and by Centre Interdisciplinaire de Nanoscience de Marseille (CINaM) through internal grants to D.V. We thank C. Henry for his support, Chi Ma for his assistance with EBSD and OC imaging at Caltech, and C. Vanni, W. Saikali, C. Dominici, and T. Neisius for their help with the FIB foil preparation and observation at CP2M-Marseille. We made the TEM observations at the INSU TEM facility at Marseille. We thank S. Nitsche and D. Chaudanson for their supervision during the sessions. One of us (D.V.) is grateful for a Caltech financial support to this project. Reviews by three anonymous reviewers as well as editorial handling by Nita Sahai are gratefully acknowledged.
Funding AgencyGrant Number
Centre National de la Recherche Scientifique (CNRS)UNSPECIFIED
Institut National des Sciences de l’Univers (INSU)ECLIPSE 2005
Institut National des Sciences de l’Univers (INSU)INTERRVIE 2009
Centre Interdisciplinaire de Nanoscience de Marseille (CINaM)UNSPECIFIED
Subject Keywords:Biomineral; mesocrystal; crystallography; calcite; EBSD; hierarchical organization; modularity; Corallium rubrum; complex shape
Issue or Number:2-3
Record Number:CaltechAUTHORS:20100302-131512467
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Official Citation:Daniel Vielzeuf, Nicole Floquet, Dominique Chatain, Francoise Bonnete, Daniel Ferry, Joaquim Garrabou, and Edward M. Stolper Multilevel modular mesocrystalline organization in red coral American Mineralogist (February 2010), 95(2-3):242-248
Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:17631
Deposited By: Jason Perez
Deposited On:12 Mar 2010 17:06
Last Modified:08 Nov 2021 23:37

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