Can functional trade-offs in natural body armour undermine the current biomimetics approach?

Through millions of years of evolution, nature has unfolded an array of armour types in the animal kingdom. The underlying mechanisms of natural body armour have received considerable attention in the field of biomimetics because of their potential role in serving as inspiration for artificial protective materials. Unfortunately, the majority of biomimetic studies often unambiguously assume that nature has selected the most optimal designs. Instead, the response of traits to natural selection is subject to various constrains including functional trade-offs. Hence, the current biomimetics approach might fail to fulfill the requisites of a well-designed biomimetics study and indirectly constrain the development of artificial body armour. The proposed project employs a strong ecological and evolutionary framework to investigate the effect of functional trade-offs on the evolution of body armour. Cordyline lizards are the ideal study system for a comparative and experimental analysis of body armour, because unlike other vertebrates, they display a vast amount of variation in the expression and morphology of osteoderms (i.e. body plates embedded in the skin). The study integrates evolutionary biology and functional morphology with the field of biomechanics while benefiting from state-of-the-art technology such as high-resolution micro-computed tomography scanning, 3D bioprinting and novel simulation software to ultimate put the current approach of biomimetic studies to the test.

Keywords:FUNCTIONAL MORPHOLOGY

Disciplines:Animal biology, Veterinary medicine