Resilient silk captures prey in black widow cobwebs

The gumfoot thread of a black widow (Latrodectus hesperus) spider's cob web is a spring-loaded trap that yanks walking insects into the web. Since spider silks are known as energy dissipating materials, we investigated this trap to find out where the energy is stored. Using previously measured material properties, we modeled the gumfoot thread as a damped harmonic oscillator and compared it to high speed video analysis of prey capture. These measurements show that the gumfoot thread is plastically deformed during prey capture and cannot be the site of energy storage. We then measured the material properties of scaffolding silk that makes up the upper portion of the cob web. Scaffolding silk is highly resilient (90%) at strains less than 3%. This energy storage is sufficient to drive the oscillations seen in prey capture and is consistent with the measured kinematics. This study is the first demonstration of energy-storage as a primary biological function for spider silk.