Parrotfish Teeth: Stiff Biominerals Whose Microstructure Makes Them Tough and Abrasion-Resistant to Bite Stony Corals

Matthew Marcus; Shahrouz Amini; Cayla Stifler; Chang-Yu Sun; Nobumichi Tamura; Hans Bechtel; Dilworth Parkinson; Harold barnard; Xiyue Zhang; Ali Miserez; J. Q. Isaiah Chua; Pupa Gilbert

Parrotfish Teeth: Stiff Biominerals Whose Microstructure Makes Them Tough and Abrasion-Resistant to Bite Stony Corals

ORAL

Abstract

Parrotfish feed by biting stony corals. To investigate how their teeth endure such contact stress, we examine the composition, nano/micro- structure, and mechanical properties of the steephead parrotfish Chlorurus microrhinos tooth. Its enameloid is a fluorapatite biomineral with outstanding mechanical properties: the mean elastic modulus and hardness near the biting surface: 124 GPa and 7.3 GPa, resp., making it among the stiffest and hardest biominerals known; mean indentation yield strength is >6 GPa, and mean fracture toughness is 2.5 MPa.m^1/2. This combination of properties yields high abrasion resistance. Fluorapatite shows X-ray linear dichroism at the Ca L-edge, enabling polarization-dependent contrast mapping^1-2 of apatite, to quantitatively measure nanocrystal orientations. Parrotfish enameloid consists of 100-nm-wide, microns-long crystals, co-oriented and bundled into interwoven fibersm which decrease in average diameter from 5 µm at the back to 2 µm at the tooth tip. This size change is spatially correlated with an increase in hardness.³
1. PUPA Gilbert et al. PNAS 2011, 108, 11350
2. PUPA Gilbert et al. EPSL 2017, 460, 281
3. MA Marcus et al. ACS Nano 2017, DOI: 10.1021/acsnano.7b05044

March 5, 2018, 5:54 PM – March 5, 2018, 6:06 PM

Presenters

Matthew Marcus

ALS/LBNL, Advanced Light Source, Lawrence Berkeley Laboratory

Authors

Matthew Marcus

ALS/LBNL, Advanced Light Source, Lawrence Berkeley Laboratory
Shahrouz Amini

Nanyang Technological University, Biological & Biomimetic Material Laboratory, School of Materials Science & Engineering
Cayla Stifler

Department of Physics, University of Wisconsin-Madison, Department of Physics, University of Wisconsin–Madison, Physics, Chemistry, Geoscience, Univ of Wisconsin
Chang-Yu Sun

Department of Physics, University of Wisconsin-Madison, Department of Physics, University of Wisconsin–Madison, Physics, Chemistry, Geoscience, Univ of Wisconsin, University of Wisconsin-Madison
Nobumichi Tamura

Advanced Light Source, Lawrence Berkeley National Laboratory, Advanced Light Source, Lawrence Berkeley Laboratory
Hans Bechtel

Advanced Light Source Division, Lawrence Berkeley National Lab, Advanced Light Source, Lawrence Berkeley National Laboratory, Advanced Light Source, Lawrence Berkeley Laboratory
Dilworth Parkinson

Advanced Light Source, Lawrence Berkeley Laboratory
Harold barnard

Advanced Light Source, Lawrence Berkeley Laboratory
Xiyue Zhang

Department of Physics, University of Wisconsin–Madison
Ali Miserez

Nanyang Technological University, Biological & Biomimetic Material Laboratory, School of Materials Science & Engineering
J. Q. Isaiah Chua

Nanyang Technological University, Biological & Biomimetic Material Laboratory, School of Materials Science & Engineering
Pupa Gilbert

Department of Physics, Chemistry, and Geoscience, University of Wisconsin-Madison, Department of Physics, University of Wisconsin-Madison, Department of Physics, University of Wisconsin–Madison, Physics, Chemistry, Geoscience, Univ of Wisconsin, Departments of Chemistry, Materials Science, and Geoscience, University of Wisconsin-Madison, University of Wisconsin-Madison, Univ of Wisconsin, Madison