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Título: | Conspicuousness, color resemblance, and toxicity in geographically diverging mimicry: The pan-Amazonian frog Allobates femoralis |
Autor: | Amézquita, Adolfo Ramos, Óscar González, Mabel Cristina Rodríguez, Camilo Medina, Iliana Simões, Pedro Ivo Lima, Albertina Pimental |
Palavras-chave: | Adaptation Alarm Signal Antipredator Defense Color Color Morph Divergence Frog Geographical Variation Mimicry Predation Risk Predator-prey Interaction Toxic Organism Toxicity Visual Cue Anura Dendrobatidae Epipedobates Femoralis Animals Animals Dispersal Anura Biological Mimicry Color Evolution Food Chain Physiology Pigmentation Predation Animals Distribution Animal Anura Biological Evolution Biological Mimicry Color Food Chain Pigmentation Predatory Behavior |
Data do documento: | 2017 |
Revista: | Evolution |
É parte de: | Volume 71, Número 4, Pags. 1039-1050 |
Abstract: | Predation risk is allegedly reduced in Batesian and Müllerian mimics, because their coloration resembles the conspicuous coloration of unpalatable prey. The efficacy of mimicry is thought to be affected by variation in the unpalatability of prey, the conspicuousness of the signals, and the visual system of predators that see them. Many frog species exhibit small colorful patches contrasting against an otherwise dark body. By measuring toxicity and color reflectance in a geographically variable frog species and the syntopic toxic species, we tested whether unpalatability was correlated with between-species color resemblance and whether resemblance was highest for the most conspicuous components of coloration pattern. Heterospecific resemblance in colorful patches was highest between species at the same locality, but unrelated to concomitant variation in toxicity. Surprisingly, resemblance was lower for the conspicuous femoral patches compared to the inconspicuous dorsum. By building visual models, we further tested whether resemblance was affected by the visual system of model predators. As predicted, mimic-model resemblance was higher under the visual system of simulated predators compared to no visual system at all. Our results indicate that femoral patches are aposematic signals and support a role of mimicry in driving phenotypic divergence or mimetic radiation between localities. © 2017 The Author(s). Evolution © 2017 The Society for the Study of Evolution. |
DOI: | 10.1111/evo.13170 |
Aparece nas coleções: | Artigos |
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