Reduced palatability, fast flight, and tails: decoding the defence arsenal of Eudaminae skipper butterflies in a Neotropical locality

Linke, Daniel; Hernandez Mejia, Jacqueline; Eche Navarro, Valery N P; Salinas Sánchez, Letty; de Gusmão Ribeiro, Pedro; Elias, Marianne; Matos-Maraví, Pável

doi:10.1093/jeb/voae091

Journal of Evolutionary Biology

2024

DOI: 10.1093/jeb/voae091

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Reduced palatability, fast flight, and tails: decoding the defence arsenal of Eudaminae skipper butterflies in a Neotropical locality

Daniel Linke,

Jacqueline Hernandez Mejia,

Valery N P Eche Navarro

et al.

Abstract: Prey often rely on multiple defences against predators, such as flight speed, attack deflection from vital body parts, or unpleasant taste, but our understanding on how often and why they are co-exhibited remains limited. Eudaminae skipper butterflies use fast flight and mechanical defences (hindwing tails), but whether they use other defences like unpalatability (consumption deterrence), and how these defences interact, has not been assessed. We tested the palatability of 12 abundant Eudaminae … Show more

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Quantifying the success of prey crypsis, aposematism and evasiveness in avoiding avian predators’ attack

Linke,

Mejia,

Navarro

et al. 2024

Preprint

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1. Antipredator defences typically act at specific stages along the predation sequence, i.e., during prey encounter, identification, approach, and subjugation. However, the effectiveness of such defences has seldom been contrasted and quantified in parallel using an experimental setting with wild predators. 2. Within aviaries installed in two localities in northeastern Peru, we recorded the responses of avian predators to three antipredator defences, crypsis, aposematism and evasiveness, each expressed in three butterfly species. We examined both immature and adult birds from forest and urban environments, including species having diets ranging from fully insectivorous to omnivorous. 3. We confirmed the expectations that cryptic butterflies (Nymphalidae: Satyrinae: Euptychiina) largely remained undetected, whereas aposematic Heliconius (Nymphalidae: Heliconiinae) were frequently noticed but seldom attacked. Evasive Spicauda (Hesperiidae: Eudaminae) were frequently detected and attacked but exhibited higher evasion rates likely owing to their fast flight. 4. Bird life stage dramatically influenced defence effectiveness. Immature birds were more prone to attacking Heliconius, possibly due to being in earlier learning stages of local aposematic cues. We also found evidence that predation pattern differs between bird families, making more adept predators more likely to attack defended prey (i.e., Vireonidae). 5. Our findings illuminate the nuanced dynamics of predator-prey interactions in complex tropical environments, highlighting the intricate behavioural responses of wild predators and how they shape the co-existence of diverse antipredator defences.

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Quantifying the success of prey crypsis, aposematism and evasiveness in avoiding avian predators’ attack

Linke,

Mejia,

Navarro

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Reduced palatability, fast flight, and tails: decoding the defence arsenal of Eudaminae skipper butterflies in a Neotropical locality

Cited by 1 publication

References 54 publications

Quantifying the success of prey crypsis, aposematism and evasiveness in avoiding avian predators’ attack

Quantifying the success of prey crypsis, aposematism and evasiveness in avoiding avian predators’ attack

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