Predation with the tongue through viscous adhesion, a scaling approach

Abstract

Some predators, mainly lizards and amphibians, capture their prey with their tongue. The process of capture involves strong adhesion mechanisms to overcome inertial forces that should be related to a viscous mucus produced at the tongue tip. A scaling model of prey capture independent of the anatomic details of the animals is developed from a study of viscous adhesion with a probe-tack geometry. This model is then successfully applied to describe the nonlinear evolution of the maximum prey size with the predator length for chameleons. This approach of prey capture defines a new framework that should help biophysicists and biologists to study more quantitatively the adhesion mechanisms for various animals and biological processes.