Abstract
Conspicuous coloration, which presumably makes prey more visible to predators, has intrigued researchers for long. Contrastingly coloured, conspicuous striped patterns are common among lizards and other animals, but their function is not well known. We propose and test a novel hypothesis, the ‘redirection hypothesis’, wherein longitudinal striped patterns, such as those found on the anterior body parts of most lacertilians, redirect attacks away from themselves during motion towards less vulnerable posterior parts, for example, the autotomous tail. In experiments employing human ‘predators’ attacking virtual prey on a touchscreen, we show that longitudinal striped patterns on the anterior half of prey decreased attacks to the anterior and increased attacks to the posterior. The position of stripes mattered—they worked best when they were at the anterior. By employing an adaptive psychophysical procedure, we show that prey with striped patterning are perceived to move slower, offering a mechanistic explanation for the redirective effect. In summary, our results suggest that the presence of stripes on the body (i.e. head and trunk) of lizards in combination with caudal autotomy can work as an effective anti-predator strategy during motion.
Highlights
A striking feature of several thousands of lizards (Suborder: Lacertilia), snakes (Suborder: Serpents) and other animals is the presence of strongly contrasting stripes on the body, which presumably make them conspicuous against their background and enhance detection by predators
We show that prey with striped patterns on the anterior half received attacks more often to posterior half compared with suitable controls
By employing 3 an adaptive staircase paradigm [9,31], we demonstrate that stripes on the anterior part of the body make the prey appear to move slower, providing a mechanistic explanation for the observed redirective effect
Summary
A striking feature of several thousands of lizards (Suborder: Lacertilia), snakes (Suborder: Serpents) and other animals is the presence of strongly contrasting stripes on the body, which presumably make them conspicuous against their background and enhance detection by predators. Recent studies have shown that conspicuous high-contrast patterns such as stripes may play a role against predation during motion [6,7,8], supporting the ‘motion dazzle hypothesis’ [4]. This hypothesis posits that during motion, the presence of highcontrast patterns interferes with precise estimation of speed or trajectory of the prey by the predator, thereby reducing the likelihood of successful capture. Despite a few contradictory results [9,10], the majority of experimental and comparative studies [3,11,12,13,14,15] on this topic has suggested that motion dazzle patterns might create erroneous motion signals, causing an apparent change in the perceived speed by the predator (see [8] for a review on mechanisms)
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