Abstract

Adhesive foot pads (claw tufts) of spiders consist of hair-like setae representing a two-leveled hierarchical structure, which provides strong attachment to a wide variety of surfaces. Several previous studies on adhesive foot pads concentrated on the function of the terminal contact elements (spatulae) for adhesion and friction, whereas the role of the higher hierarchical level (setae) remained largely unknown. In the present paper, we examined the influence of both setal width and the density of the setal array on attachment and on the ability to adapt to rough substrate surfaces in three hunting spider species that differ in the configuration of the adhesive foot pads: Zoropsis spinimana (Zoropsidae), Cupiennius salei (Ctenidae) and Anyphaena accentuata (Anyphaenidae). We found that spiders with denser and smaller setal tips gained higher vertical pull-off strength (adhesion per total contacting pad area) and traction force (friction) on smooth surfaces. Traction force experiments on surfaces with different roughness revealed a strong friction reduction on substrates with a mean asperity size of 1μm. This supports previous studies that demonstrated the existence of a critical roughness that is equivalent to or smaller than the dimension of spatulae. There was no significant difference in traction forces between smooth surfaces and surfaces with asperities comparable to the dimensions of setal tips (9 and 12μm). This suggests that the setal level is less decisive for the adaptability to the substrate geometry than the spatula level, especially at small length scales of surface roughness.

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