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Performance of biological food processing interfaces: Perspectives on the science of mollusc radula.

Authors :
Krings W
Gorb SN
Source :
Biointerphases [Biointerphases] 2024 May 01; Vol. 19 (3).
Publication Year :
2024

Abstract

The Mollusca comprises a diverse range of organisms, with the class Gastropoda alone boasting approximately 80 000 extant species. Their adaptability across various habitats is facilitated by the evolution of the radula, a key structure for food acquisition. The radula's composition and mechanical properties, including its chitinous membrane, teeth, and supporting structures, enable efficient food gathering and processing. Through adaptive tooth morphology and composition, an interplay between radular components is facilitated, which results in collective effects to withstand forces encountered during feeding and reduce structural failure, with the broad range of variations reflecting ecological niches. Furthermore, teeth consist of composite materials with sometimes high contents of iron, calcium, or silicon to reduce wear. During interaction with the food, the radula performs complex three-dimensional motions, challenging to document. Here, we provide a review on the morphology, the mechanical properties, the composition, and various other parameters that contribute to radular performance. Due to, e.g., the smallness of these structures, there are, however, limitations to radular research. However, numerical simulations and physical models tested on substrates offer avenues for further understanding radular function and performance during feeding. These studies not only advance our knowledge of molluscan biology and ecology but also provide inspirations for biomimetic design and further advances in materials engineering.<br /> (2024 Published under an exclusive license by the AVS.)

Details

Language :
English
ISSN :
1559-4106
Volume :
19
Issue :
3
Database :
MEDLINE
Journal :
Biointerphases
Publication Type :
Academic Journal
Accession number :
38940493
Full Text :
https://doi.org/10.1116/6.0003672