Abstract
Specular reflection appears as a bright spot or highlight on any smooth glossy convex surface and is caused by a near mirror-like reflectance off the surface. Convex shapes always provide the ideal geometry for highlights, areas of very strong reflectance, regardless of the orientation of the surface or position of the receiver. Despite highlights and glossy appearance being common in chemically defended insects, their potential signalling function is unknown. We tested the role of highlights in warning colouration of a chemically defended, alpine leaf beetle, Oreina cacaliae. We reduced the beetles’ glossiness, hence their highlights, by applying a clear matt finish varnish on their elytra. We used blue tits as predators to examine whether the manipulation affected their initial latency to attack, avoidance learning and generalization of warning colouration. The birds learned to avoid both dull and glossy beetles but they initially avoided glossy prey more than dull prey. Interestingly, avoidance learning was generalized asymmetrically: birds that initially learned to avoid dull beetles avoided glossy beetles equally strongly, but not vice versa. We conclude that specular reflectance and glossiness can amplify the warning signal of O. cacaliae, augmenting avoidance learning, even if it is not critical for it.
Highlights
When light reaches the surface of an object it can be reflected as a beam or scattered out in many directions depending upon the surface properties
The essential element in the manipulation was its reduction of specular reflection, an increase in the diffuse component of reflection, and its small effect on the relative spectral shape when the surface was measured at its maximum reflection angle (Fig. 3b)
We present experimental evidence of the role of specular reflectance and glossiness in warning signalling
Summary
When light reaches the surface of an object it can be reflected as a beam or scattered out in many directions depending upon the surface properties. They feed exposed on their host plants (Asteraceae) and utilize sequestered pyrrolizidine alkaloids as defensive compounds[11] Together with their green structural colouration, conspicuous reflective highlight and bold behaviour[12] (Fig. 1, Supplementary Fig. S1) it has been suggested that O. cacaliae are aposematic[12,13,14]. For these reasons O. cacaliae presents the perfect system to investigate the role of specular reflectance for warning signalling. Using wild-caught blue tits (Cyanistes caeruleus) as predators and O. cacaliae as prey we measured (a) predators’ willingness to attack, (b) speed of avoidance learning and (c) generalization for attacking prey with natural and reduced specular reflectance and glossiness
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