Multi-scale crystallographic ordering in the cold-water coral Lophelia pertusa

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作者
Vincent Mouchi
Pierre Vonlanthen
Eric P. Verrecchia
Quentin G. Crowley
机构
[1] Sorbonne Universités,
[2] UPMC Univ. Paris 06,undefined
[3] CNRS UMR 7193,undefined
[4] ISTEP,undefined
[5] Geology,undefined
[6] School of Natural Sciences,undefined
[7] Trinity College,undefined
[8] Institute of Earth Sciences,undefined
[9] FGSE,undefined
[10] Géopolis,undefined
[11] University of Lausanne,undefined
[12] Institute of Earth Surface Dynamics,undefined
[13] FGSE,undefined
[14] Géopolis,undefined
[15] University of Lausanne,undefined
来源
Scientific Reports | / 7卷
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摘要
Lophelia pertusa is a widespread colonial cold-water coral which can form large three-dimensional habitats for benthic communities. Although it is known to construct an aragonite skeleton with optically opaque and translucent bands, details of its biomineralized structure are unclear. New crystallographic data obtained from Lophelia pertusa using electron backscatter diffraction (EBSD) reveal a remarkably high degree of multiscale self-ordering and provide unprecedented detail on crystallographic orientations within the coral skeleton. The EBSD data unequivocally demonstrate a self-regulated architecture across a range of spatial scales, resulting in a specific structure which contributes to the physical robustness of its skeleton and an evolutionary advantage in such habitats.
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