2023
DOI: 10.1007/s00435-023-00609-4
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Mechanical properties of larval mouthparts of the antlion Euroleon nostras (Neuroptera: Myrmeleontidae) and their correlation with cuticular material composition

Abstract: The diversity of insects can be explained by their ability to fill various ecological niches, which includes the foraging from diverse sources. The cuticle-based feeding structures interact with the food and show adaptations in shape, material composition and mechanical properties to it. In this study, we focus on the mouthparts of a very prominent ambush predator, the antlion larvae of Euroleon nostras. By nanoindentation, we tested the hardness and the Young’s modulus of the mouthparts, which are significant… Show more

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Cited by 13 publications
(22 citation statements)
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“…When proteins were abundant, those structures appeared brown, yellow, or pink in overlay. This protocol (Michels & Gorb, 2012) was applied in many studies on arthropod cuticles (e.g., Beutel et al, 2020; Friedrich & Kubiak, 2018; Lehnert et al, 2021; Matsumura et al, 2021; Peisker et al, 2013) and cross‐validated by employing nanoindentation in lady beetles and antlions (Krings & Gorb, 2023b; Peisker et al, 2013).…”
Section: Discussionmentioning
confidence: 99%
“…When proteins were abundant, those structures appeared brown, yellow, or pink in overlay. This protocol (Michels & Gorb, 2012) was applied in many studies on arthropod cuticles (e.g., Beutel et al, 2020; Friedrich & Kubiak, 2018; Lehnert et al, 2021; Matsumura et al, 2021; Peisker et al, 2013) and cross‐validated by employing nanoindentation in lady beetles and antlions (Krings & Gorb, 2023b; Peisker et al, 2013).…”
Section: Discussionmentioning
confidence: 99%
“…A higher degree of cuticular H and E along the mandible masticatory margin is commonly observed in ants (Brito et al 2017;Schofield et al 2002;2021), although only a few species were measured so far, mainly leaf-cutter ants. Such higher levels of material properties along the masticatory margin usually follow the concentration of transition metals like Zn (Schofield et al 2021), which tend to concentrate along the cutting edge or other cutting and piercing tools of arthropods (Polidori et al 2020;Schofield et al 2021;Krings & Gorb 2023;Reiter et al 2023;Krings & Gorb 2023). In leaf cutter ants, the mandible cutting edge is usually stiffer and harder (Schofield et al 2002;2021), which could be a mechanism to deal with the abrasion associated with the behavior of cutting leaves, as well as to improve the selfsharpening mechanism of such a structure (Martínez et al 2020).…”
Section: Discussionmentioning
confidence: 99%
“…Such behaviors usually generate friction between body parts and the environment and even among body parts that can lead to cuticular wear, which could also happen with the frequent use of a structure like the mandibles to process hard materials (Schofield et al 2011;2022;Püffel et al 2023b). Therefore, it is not surprising that substantial variation in cuticle material sclerotization levels is observed along the body of an insect (Michels & Gorb 2012;Büsse & Gorb 2018;Eshghi et al 2018;Josten et al 2022;Krings & Gorb, 2023), besides the differences among the cuticular layers or the abundance of transition or alkaline earth metals. This intraindividual variation in the cuticle can have significant functional relevance due to its effects on the cuticle material properties (Das et al 2018;Jafarpour et al 2020;Matsumura et al, 2020;Toofani et al 2020;Xing & Yang 2020;Casey et al 2022).…”
Section: Introductionmentioning
confidence: 99%
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“…Cu, Fe, Mn and/or Zn ions probably serve as cross-links [41,61,80,[84][85][86][87], whereas Ca and Mg could be present in crystalline form [34,[43][44][45]. Most of the elements, especially Zn, Mn, Ca and Mg, directly relate to an increase in hardness and wear resistance in insects [23,28,29,33,34,61,63,74,88,89].…”
Section: Origin Of Mechanical Propertiesmentioning
confidence: 99%