Material gradients in gastropod radulae and their biomechanical significance: a combined approach on the paludomid Lavigeria grandis

Krings, Wencke; Matsumura, Yuichi; Brütt, Jan-Ole; Gorb, Stanislav N.

doi:10.1007/s00114-022-01822-9

Cited by 25 publications

(67 citation statements)

References 97 publications

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“…First, elemental compositions were analyzed by semi-quantitative EDX, afterwards nanoindentation was performed on the same sample localities. For EDX, the SEM Zeiss LEO 1525 (One Zeiss Drive, Thornwood, New York, USA) equipped with an Octane Silicon Drift Detector (SDD) (micro analyses system TEAM, EDAX Inc., New Jersey, USA) was employed (for a detailed protocol see Krings et al, 2022aKrings et al, , 2022bKrings et al, , 2022aKrings et al, , 2022dBrütt et al, 2022). The elemental composition of the embedded structures was studied, always using an acceleration voltage of 20 keV and the same settings (e.g., lens opening, working distance, etc.).…”

Section: Nanoindentation and Energy-dispersive X-ray Spectroscopy (Edx)mentioning

confidence: 99%

“…For nanoindentation (for detailed protocol see Krings et al, 2019Krings et al, , 2021e, 2022aKrings et al, , 2022dKrings, 2020;Gorb & Krings, 2021), a nanoindenter SA2 (MTS Nano Instrument, Oak Ridge, Tennessee, USA) equipped with a Berkovich indenter tip and a dynamic contact module (DCM) head was employed. A Poisson's ratio of 0.3 was used.…”

Section: Nanoindentation and Energy-dispersive X-ray Spectroscopy (Edx)mentioning

confidence: 99%

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Mechanical properties, degree of sclerotisation and elemental composition of the gastric mill in the red swamp crayfish Procambarus clarkii (Decapoda, Crustacea)

Krings

Brütt

Gorb

2022

Preprint

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The gastric mill of Decapoda is a unique feature consisting of interacting teeth, stabilizing ossicles, and particle sorting setae. As this organ is involved in the mechanical fragmentation of the food, it serves as interface between organism and environment. There is an ongoing debate to which extend structures are shaped due to phylogeny or to ecology. As material properties complement morphology and hold information about functionality and trophic preferences, we here aim at providing a basis for more intensely comparative research on material composition and properties of gastric mill components. Data on the micro-structure, documented via scanning electron microscopy (SEM), on the elemental composition, determined by energy-dispersive X-ray spectroscopy (EDX, EDS), on the heterogeneities in material properties, visualized by confocal laser scanning microscopy (CLSM), and on the mechanical properties hardness and elasticity (i.e., Young’s modulus), tested by nanoindentation technique, of gastric mill components from the red swamp crayfish Procambarus clarkia is here presented. The elemental composition of gastric mill components was studied previously in other taxa, but the mechanical properties were never tested before. As epicuticle and exocuticle could be analyzed individually, due to rather large thickness of the epicuticle, material property gradients, with values decreasing from the interacting surface towards interior, could be determined. Finally, we were able to relate the mechanical property data and the autofluorescence signals with the elemental composition and the degree of tanning.

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Section: Nanoindentation and Energy-dispersive X-ray Spectroscopy (Edx)mentioning

confidence: 99%

Section: Nanoindentation and Energy-dispersive X-ray Spectroscopy (Edx)mentioning

confidence: 99%

Mechanical properties, degree of sclerotisation and elemental composition of the gastric mill in the red swamp crayfish Procambarus clarkii (Decapoda, Crustacea)

Krings

Brütt

Gorb

2022

Preprint

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“…The origin of heterogeneities in the radular teeth Functional gradients and heterogeneities in biological materials can have their origin in the architecture of the structures (e.g., chitin bre density, porosity), the degree of tanning, or the inorganic content [for review, see 109]. For chiton and limpet radular teeth, functional gradients are in uenced by all parameters [for throughout reviews, see 81, 82, 83], whereas in the less-mineralized paludomid radular teeth the mechanical properties seem to have their origin in the architecture of chitin bres [74] and the degree of tanning [52]. The latter was determined by applying a protocol established on arthropods: for the chitinous insect cuticle, it is common practice to determine the degree of tanning via laser excitation by CLSM, according to the protocol established by Michels & Gorb [110] [see e.g., 111,112,113,114,115].…”

Section: Discussionmentioning

confidence: 99%

“…hardness, Young's modulus) and their gradients need to be tested, as they contribute to the understanding of overall functionality of the structure [e.g. 24,26,27,42,43,44,45,46,47,48,49,50,51,52,53]. Part of radular functioning is the reduction of structural failure or high degrees of wear during feeding.…”

Section: Introductionmentioning

confidence: 99%

“…(2) The radula consists of chitin bers with associated proteins [64], which form a brous composite organic matrix [65]. Besides of different local degrees of tanning, which result in different local mechanical properties [52], the matrix can vary in its bre orientation, density, or arrangement [45,46,66,67,68,69,70,71,72,73,74]. The tooth surface can consist of a rather homogenous layer, whereas the bres underneath are oriented perpendicularly to the tooth surface, probably absorbing shocks during interaction with the feeding substrate [60, 74,75,76,77,78,79] and transmitting stresses to the radular membrane [80].…”

Section: Introductionmentioning

confidence: 99%

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Coping with abrasion and structural failure – diverging composition of radular teeth in two Porifera-consuming nudibranch species (Mollusca, Gastropoda)

Krings

Wägele²,

Neumann

et al. 2022

Preprint

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Background: Most molluscs forage with their radula, a chitinous membrane with embedded teeth. As teeth are interfaces between the individual and its ingesta, trophic specialisations can be reflected by morphology, composition, and mechanical properties of the radula. Adaptations to the ingesta – especially with regard to mechanisms contributing to the reduction of structural failure and wear – are well studied in the heavily mineralized teeth of Polyplacophora and Patellogastropoda. For the rather chitinous teeth of non-limpet snails, we are however confronted with a large gap of knowledge. Results: For this study, we selected nudibranch gastropods, which are of high interest, when studying trophic specialisations, because taxa are strongly adapted to forage on certain prey types. To shed some light on this type of radula, we here investigated two species – Felimare picta and Doris pseudoargus, which are similar with regard to their food preference (Porifera-consuming). Tooth morphologies were documented using scanning-electron-microscopy and mechanical properties were tested by nanoindentation, to develop hypotheses on functional adaptations of the radula to the ingesta. We found that tooth morphologies and mechanical properties are rather similar in both species, indicating that teeth are similar in their function. In the search for the reasons of the specific mechanical properties, we studied the material composition. Teeth were visualized using confocal laser scanning microscopy (CLSM), to determine the degree of tanning, and analysed with energy-dispersive X-ray spectroscopy (EDX), to determine the elemental composition. Our results show, that the inorganic content and the emitted autofluorescence signal differ between the species. This was especially prominent, when studying the inner and outer sides (leading and trailing edges) of teeth. In F. picta, we detected high proportions of Si, whereas teeth of D. pseudoargus contained high amounts of Ca, which influenced the autofluorescence signal in CLSM. Using nanoindentation we determined high Young’s modulus and hardness values for the leading edges of teeth, which seem to correlate with the Si- and Ca-content. Conclusions: This is a new set of data for non-limpet gastropods, rendering that their teeth can be mechanically enhanced via different chemical pathways to reach similar properties in reducing structural failure and abrasion.

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Dynamical Numerical Model of the Molluscan Radula in its Interaction with the Substrate and Food Particles

Filippov

Gorb

Kovalev

et al. 2023

Advcd Theory and Sims

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The radula, a chitinous membrane with teeth, is the molluscan autapomorphy for food gathering and processing. Even though this structure is studied for decades, the interplay between the structure and the particular food or/and the substrate remains mostly enigmatic. Here, we provide a numerical model approach to understand the relationship between structure, feeding efficiency, and partial work performed by the system. This first simple dynamic numerical radular model interacts with the food particles and the uneven substrate. This protocol can be applied to any system in the future, as the parameters (interaction between structures, adhesion, size of food particles, attachment angle of teeth to membrane, etc.) can be easily altered. This will shed light on the biomechanical adaptations of this feeding structure (e.g., wear and failure prevention) to the specific environment.

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Material gradients in gastropod radulae and their biomechanical significance: a combined approach on the paludomid Lavigeria grandis

Cited by 25 publications

References 97 publications

Mechanical properties, degree of sclerotisation and elemental composition of the gastric mill in the red swamp crayfish Procambarus clarkii (Decapoda, Crustacea)

Mechanical properties, degree of sclerotisation and elemental composition of the gastric mill in the red swamp crayfish Procambarus clarkii (Decapoda, Crustacea)

Coping with abrasion and structural failure – diverging composition of radular teeth in two Porifera-consuming nudibranch species (Mollusca, Gastropoda)

Dynamical Numerical Model of the Molluscan Radula in its Interaction with the Substrate and Food Particles

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