Silk elasticity as a potential constraint on spider body size |
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| Authors: | Miguel A Rodríguez-Gironés Guadalupe Corcobado |
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| Institution: | a Department of Functional and Evolutionary Ecology, Estación Experimental de Zonas Áridas, CSIC, Ctra. de Sacramento S/N, La Cañada de San Urbano, 04120 Almeria, Spain
b Cantabrian Institute of Biodiversity (ICAB), Departamento de Biología de Organismos y Sistemas, Universidad de Oviedo, Catedrático Rodrigo Uría, S/N, 33006 Oviedo, Spain |
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| Abstract: | Silk is known for its strength and extensibility and has played a key role in the radiation of spiders. Individual spiders use different glands to produce silk types with unique sets of proteins. Most research has studied the properties of major ampullate and capture spiral silks and their ecological implications, while little is known about minor ampullate silk, the type used by those spider species studied to date for bridging displacements. A biomechanical model parameterised with available data shows that the minimum radius of silk filaments required for efficient bridging grows with the square root of the spider’s body mass, faster than the radius of minor ampullate silk filaments actually produced by spiders. Because the morphology of spiders adapted to walking along or under silk threads is ill suited for moving on a solid surface, for these species there is a negative relationship between body mass and displacement ability. As it stands, the model suggests that spiders that use silk for their displacements are prevented from attaining a large body size if they must track their resources in space. In particular, silk elasticity would favour sexual size dimorphism because males that must use bridging lines to search for females cannot grow large. |
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| Keywords: | Biomechanics Dispersal Minor ampullate silk Radiation Sexual size dimorphism (SSD) |
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