FATIGUE DAMAGE: REPEATED LOADING ENABLES CRABS TO OPEN LARGER BIVALVES

¹ Department of Zoology, University of Alberta, Edmonton, Alberta, T6G 2E9 CANADA
² Department of Anatomy, University of Chicago, 1025 East 57th St., Chicago, Illinois 60637

Observations of behavior and direct measurements of force indicated that the cancrid crab Cancer productus could directly crush only the smallest specimens of Protothaca staminea, a venerid bivalve. Crabs opened larger P. staminea by repeatedly loading the same region of the bivalve's shell with a chela; we hypothesized that this repeated loading caused fatigue of the shell material. To test whether significant fatigue damage would accumulate in the number of cycles a crab was likely to exert, live bivalves and cleaned valves were cyclically loaded in a mechanical testing machine to loads of a constant maximum amplitude of 70-100% of the bivalves' predicted static strength. Failure frequently occurred in fewer than 200 cycles. Recordings from strain gauges attached to the chelae of crabs showed that during an attack on a bivalve a crab would squeeze more than 200 times and that failure of the bivalve could occur during a force pulse which was weaker than previous force pulses. We conclude that repeated loading enables crabs to open larger bivalves than could be crushed outright; by greatly increasing the maximum size of prey vulnerability this expands the size range of molluscan prey available to crabs.

This article has been cited by other articles:

				K. J. Mach, D. V. Nelson, and M. W. Denny Techniques for predicting the lifetimes of wave-swept macroalgae: a primer on fracture mechanics and crack growth J. Exp. Biol., July 1, 2007; 210(13): 2213 - 2230. [Abstract] [Full Text] [PDF]