Animal Behaviour (2009) Vol. 77, No. 2, 327-336
Kateřina Svádová(a, b), Alice Exnerová(a), Pavel Štys(a), Eva Landová(a), Jan Valenta(c), Anna Fučíková(c) and Radomír Socha(d)
aDepartment of Zoology, Charles University, Praha, Czech Republic
bDepartment of Biology, University Hradec Králové, Czech Republic
cDepartment of Chemical Physics and Optics, Charles University, Praha, Czech Republic
dBiology Center ASCR, Institute of Entomology, České Budějovice, Czech Republic
Among the various properties of visual warning signals, colour seems to be especially important for avian predators. We tested the role of particular colours of an aposematic insect (firebug, Pyrrhocoris apterus; Heteroptera: Pyrrhocoridae) in unlearned avoidance, learning, memory and generalization of a naïve avian predator (great tit, Parus major). The wild type of the firebug is aposematic, red-and-black, and its colour mutants (white, yellow, orange) retain the same black pattern; the bug can be made artificially nonaposematic (painted uniformly brown). Wild-caught great tits avoid the firebug depending on colour, and their reaction to variously coloured prey is a result of avoidance learning and may vary according to their experience. We trained naïve great tits to avoid firebugs of different colours, and then gave some birds a memory test with firebugs of the same colour and other birds a generalization test with firebugs of a different colour. Naïve, hand-reared great tits showed no initial avoidance and attacked firebugs irrespective of colour. They learned to avoid all the colour forms at a similar rate. The generalization was asymmetric: birds that learned to avoid red firebugs did not generalize their experience to yellow or white mutants whereas birds that learned to avoid yellow mutants generalized their experience to red firebugs. The red colour thus represents a more effective signal than the yellow; predation by birds could have played a crucial role in selectively favoured evolutionary transitions from yellow to red coloration in pyrrhocorids.
Keywords: asymmetric generalization; avoidance learning; firebug; great tit; Parus major; peak shift; Pyrrhocoris apterus; signal memorability; warning signal
Keywords: asymmetric generalization; avoidance learning; firebug; great tit; Parus major; peak shift; Pyrrhocoris apterus; signal memorability; warning signal
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