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Mechanical adaptation of brachiopod shells via hydration-induced structural changes

Author

Listed:
  • Johannes Ihli

    (Photon Science Division, Paul Scherrer Institut)

  • Anna S. Schenk

    (University of Bayreuth, and Bavarian Polymer Institute, Universitaetsstrasse 30)

  • Sabine Rosenfeldt

    (University of Bayreuth, and Bavarian Polymer Institute, Universitaetsstrasse 30)

  • Klaus Wakonig

    (Photon Science Division, Paul Scherrer Institut
    ETH and University of Zürich, Institute for Biomedical Engineering, 8093)

  • Mirko Holler

    (Photon Science Division, Paul Scherrer Institut)

  • Giuseppe Falini

    (Alma Mater Studiorum Università di Bologna, via F. Selmi 2)

  • Luca Pasquini

    (University of Bologna, viale Berti-Pichat 6/2)

  • Eugénia Delacou

    (the University of Edinburgh, Joseph Black Building)

  • Jim Buckman

    (Heriot-Watt University, Riccarton)

  • Thomas S. Glen

    (University of Edinburgh)

  • Thomas Kress

    (University of Cambridge)

  • Esther H. R. Tsai

    (Brookhaven National Laboratory)

  • David G. Reid

    (University of Cambridge)

  • Melinda J. Duer

    (University of Cambridge)

  • Maggie Cusack

    (Munster Technological University, Bishopstown, Cork, T12 P928 & Tralee, Kerry)

  • Fabio Nudelman

    (the University of Edinburgh, Joseph Black Building)

Abstract

The function-optimized properties of biominerals arise from the hierarchical organization of primary building blocks. Alteration of properties in response to environmental stresses generally involves time-intensive processes of resorption and reprecipitation of mineral in the underlying organic scaffold. Here, we report that the load-bearing shells of the brachiopod Discinisca tenuis are an exception to this process. These shells can dynamically modulate their mechanical properties in response to a change in environment, switching from hard and stiff when dry to malleable when hydrated within minutes. Using ptychographic X-ray tomography, electron microscopy and spectroscopy, we describe their hierarchical structure and composition as a function of hydration to understand the structural motifs that generate this adaptability. Key is a complementary set of structural modifications, starting with the swelling of an organic matrix on the micron level via nanocrystal reorganization and ending in an intercalation process on the molecular level in response to hydration.

Suggested Citation

  • Johannes Ihli & Anna S. Schenk & Sabine Rosenfeldt & Klaus Wakonig & Mirko Holler & Giuseppe Falini & Luca Pasquini & Eugénia Delacou & Jim Buckman & Thomas S. Glen & Thomas Kress & Esther H. R. Tsai , 2021. "Mechanical adaptation of brachiopod shells via hydration-induced structural changes," Nature Communications, Nature, vol. 12(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25613-4
    DOI: 10.1038/s41467-021-25613-4
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