Biomechanical analyses of Cambrian euarthropod limbs reveal their effectiveness in mastication and durophagy

Bicknell, Russell D C; Holmes, James D; Edgecombe, Gregory D; Losso, Sarah R; Ortega-Hemandez, Javier; Wroe, Stephen; Paterson, John R

doi:10.1098/rspb.2020.2075

Author(s)

Bicknell, Russell D C

Holmes, James D

Edgecombe, Gregory D

Losso, Sarah R

Ortega-Hemandez, Javier

Wroe, Stephen

Paterson, John R

Publication Date

2021-01-27

Abstract

Electronic supplementary material is available online at https://doi.org/10.6084/m9.figshare.c.5271505.

Abstract

Durophagy arose in the Cambrian and greatly influenced the diversification of biomineralized defensive structures throughout the Phanerozoic. Spinose gnathobases on protopodites of Cambrian euarthropod limbs are considered key innovations for shell-crushing, yet few studies have demonstrated their effectiveness with biomechanical models. Here we present finite-element analysis models of two Cambrian trilobites with prominent gnathobases—Redlichia rex and Olenoides serratus—and compare these to the protopodites of the Cambrian euarthropod Sidneyia inexpectans and the modern American horseshoe crab, Limulus polyphemus. Results show that L. polyphemus, S. inexpectans and R. rex have broadly similar microstrain patterns, reflecting effective durophagous abilities. Conversely, low microstrain values across the O. serratus protopodite suggest that the elongate gnathobasic spines transferred minimal strain, implying that this species was less well-adapted to masticate hard prey. These results confirm that Cambrian euarthropods with transversely elongate protopodites bearing short, robust gnathobasic spines were likely durophages. Comparatively, taxa with shorter protopodites armed with long spines, such as O. serratus, were more likely restricted to a soft food diet. The prevalence of Cambrian gnathobase-bearing euarthropods and their various feeding specializations may have accelerated the development of complex trophic relationships within early animal ecosystems, especially the ‘arms race' between predators and biomineralized prey.

Citation

Proceedings of the Royal Society B: Biological Sciences, v.288, p. 1-8

ISSN

1471-2954

0962-8452

Pubmed ID

33499790

Link

https://hdl.handle.net/1959.11/30180

Language

en

Publisher

The Royal Society Publishing

Title

Biomechanical analyses of Cambrian euarthropod limbs reveal their effectiveness in mastication and durophagy

Type of document

Journal Article

Entity Type

Publication

Author(s)	Bicknell, Russell D C Holmes, James D Edgecombe, Gregory D Losso, Sarah R Ortega-Hemandez, Javier Wroe, Stephen Paterson, John R
Publication Date	2021-01-27
Abstract	Electronic supplementary material is available online at https://doi.org/10.6084/m9.figshare.c.5271505.
Abstract	Durophagy arose in the Cambrian and greatly influenced the diversification of biomineralized defensive structures throughout the Phanerozoic. Spinose gnathobases on protopodites of Cambrian euarthropod limbs are considered key innovations for shell-crushing, yet few studies have demonstrated their effectiveness with biomechanical models. Here we present finite-element analysis models of two Cambrian trilobites with prominent gnathobases—<I>Redlichia rex</I> and <I>Olenoides serratus</I>—and compare these to the protopodites of the Cambrian euarthropod <I>Sidneyia inexpectans</I> and the modern American horseshoe crab, <I>Limulus polyphemus</I>. Results show that <I>L. polyphemus, S. inexpectans</I> and <I>R. rex</I> have broadly similar microstrain patterns, reflecting effective durophagous abilities. Conversely, low microstrain values across the <I>O. serratus</I> protopodite suggest that the elongate gnathobasic spines transferred minimal strain, implying that this species was less well-adapted to masticate hard prey. These results confirm that Cambrian euarthropods with transversely elongate protopodites bearing short, robust gnathobasic spines were likely durophages. Comparatively, taxa with shorter protopodites armed with long spines, such as <I>O. serratus</I>, were more likely restricted to a soft food diet. The prevalence of Cambrian gnathobase-bearing euarthropods and their various feeding specializations may have accelerated the development of complex trophic relationships within early animal ecosystems, especially the ‘arms race' between predators and biomineralized prey.
Citation	Proceedings of the Royal Society B: Biological Sciences, v.288, p. 1-8
ISSN	1471-2954 0962-8452
Pubmed ID	33499790
Link	https://hdl.handle.net/1959.11/30180
Language	en
Publisher	The Royal Society Publishing
Title	Biomechanical analyses of Cambrian euarthropod limbs reveal their effectiveness in mastication and durophagy
Type of document	Journal Article
Entity Type	Publication

Biomechanical analyses of Cambrian euarthropod limbs reveal their effectiveness in mastication and durophagy

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