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Mechanical and elemental characterization of ant mandibles: consequences for bite mechanics.

Cristian Luan KlunkMichael HeethoffJörg U HammelStanislav N GorbWencke Krings
Published in: Interface focus (2024)
Mandible morphology has an essential role in biting performance, but the mandible cuticle can have regional differences in its mechanical properties. The effects of such a heterogeneous distribution of cuticle material properties in the mandible responses to biting loading are still poorly explored in chewing insects. Here, we tested the mechanical properties of mandibles of the ant species Formica cunicularia by nanoindentation and investigated the effects of the cuticular variation in Young's modulus (E) under bite loading with finite-element analysis (FEA). The masticatory margin of the mandible, which interacts with the food, was the hardest and stiffest region. To unravel the origins of the mechanical property gradients, we characterized the elemental composition by energy-dispersive X-ray spectroscopy. The masticatory margin possessed high proportions of Cu and Zn. When incorporated into the FEA, variation in E effectively changed mandible stress patterns, leading to a relatively higher concentration of stresses in the stiffer mandibular regions and leaving the softer mandible blade with relatively lower stress. Our results demonstrated the relevance of cuticle E heterogeneity in mandibles under bite loading, suggesting that the accumulation of transition metals such as Cu and Zn has a relevant correlation with the mechanical characteristics in F . cunicularia mandibles.
Keyphrases
  • high resolution
  • heavy metals
  • magnetic resonance imaging
  • computed tomography
  • human health
  • single cell
  • risk assessment
  • stress induced
  • single molecule
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  • middle aged
  • binding protein
  • health risk