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1.
Behav Processes ; 220: 105071, 2024 Jun 20.
Article in English | MEDLINE | ID: mdl-38908610

ABSTRACT

Prey-predator interactions have resulted in the evolution of many anti-predatory traits. One of them is the ability for prey to listen to predators and avoid them. Although prey anti-predatory behavioural responses to predator auditory cues are well described in a wide range of taxa, studies on whether butterflies change their behaviours in response to their predatory calls are lacking. Heliconius butterflies are unpalatable and form Müllerian mimicry rings as morphological defence strategies against their avian predators. Like many other butterflies in the Nymphalidae family, some Heliconius butterflies possess auditory organs, which are hypothesized to assist with predator detection. Here we test whether Heliconius melpomene change their behaviour in response to their predatory bird calls by observing the behaviour of male and female H. m. plessini exposed to calls of Heliconius avian predators: rufous-tailed jacamar, migratory Eastern kingbird, and resident tropical kingbird. We also exposed them to the calls of the toco toucan, a frugivorous bird as a control bird call, and an amplified greenhouse background noise as a noise control. We found that individuals changed their behaviour in response to jacamar calls only. Males increased their walking and fluttering behaviour, while females did not change their behaviour during the playback of the jacamar call. Intersexual behaviours like courtship, copulation, and abdomen lifting did not change in response to bird calls. Our findings suggest that despite having primary predatory defences like toxicity and being in a mimicry ring, H. m. plessini butterflies changed their behaviour in response to predator calls. Furthermore, this response was predator specific, as H. m. plesseni did not respond to either the Eastern kingbird or the tropical kingbird calls. This suggests that Heliconius butterflies may be able to differentiate predatory calls, and potentially the birds associated with those calls.

2.
Evolution ; 75(12): 3221-3223, 2021 12.
Article in English | MEDLINE | ID: mdl-34773401

ABSTRACT

Although many traits can be gained or lost over evolutionary time, it has long been unclear whether complex sensory processing structures, such as brain neuropils, can be regained after having been lost. Morris et al. show that a part of the brain once lost in butterflies, a macro-glomeruli complex (MGC) in the antennal lobe, is prevalent and has diversified in the Ithomiini tribe. This structure is sexually dimorphic in some species. This re-emergence of a complex sensory processing structure is likely driven by ecological factors.


Subject(s)
Butterflies , Animals , Biological Evolution , Brain
3.
Sci Adv ; 7(32)2021 Aug.
Article in English | MEDLINE | ID: mdl-34348900

ABSTRACT

Heliconius butterflies have undergone adaptive radiation and therefore serve as an excellent system for exploring the continuum of speciation and adaptive evolution. However, there is a long-lasting paradox between their convergent mimetic wing patterns and rapid divergence in speciation. Here, we characterize a locus that consistently displays high divergence among Heliconius butterflies and acts as an introgression hotspot. We further show that this locus contains multiple genes related to locomotion and conserved in Lepidoptera. In light of these findings, we consider that locomotion traits may be under selection, and if these are heritable traits that are selected for, then they might act as species barriers.

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