RT Journal Article SR Electronic T1 A field test for frequency-dependent selection on mimetic colour patterns in Heliconius butterflies JF bioRxiv FD Cold Spring Harbor Laboratory SP 005249 DO 10.1101/005249 A1 Patricio A. Salazar A1 Martin Stevens A1 Robert T. Jones A1 Imogen Ogilvie A1 Chris D. Jiggins YR 2014 UL http://biorxiv.org/content/early/2014/06/02/005249.abstract AB Müllerian mimicry, the similarity among unpalatable species, is thought to evolve by frequency-dependent selection. Accordingly, phenotypes that become established in an area are positively selected because predators have learnt to avoid these forms, while introduced phenotypes are eliminated because predators have not yet learnt to associate these other forms with unprofitability. We tested this prediction in two areas where different colour morphs of the mimetic species Heliconius erato and H. melpomene have become established, as well as in the hybrid zone between these morphs. In each area we tested for selection on three colour patterns: the two parental and the most common hybrid. We recorded bird predation on butterfly models with paper wings, matching the appearance of each morph to bird vision, and plasticine bodies. We did not detect differences in survival between colour morphs, but all morphs were more highly attacked in the hybrid zone. This finding is consistent with recent evidence from controlled experiments with captive birds, which suggest that the effectiveness of warning signals decreases when a large signal diversity is available to predators. This is likely to occur in the hybrid zone where over twenty hybrid phenotypes coexist.