Sushant Potdar , Madhuri Dinakar , Erica L. Westerman
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Here we test whether <em>Heliconius melpomene</em> change their behaviour in response to their predatory bird calls by observing the behaviour of male and female <em>H. m. plessini</em> exposed to calls of <em>Heliconius</em> 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, <em>H. m. plessini</em> butterflies changed their behaviour in response to predator calls. Furthermore, this response was predator specific, as <em>H. m. plesseni</em> did not respond to either the Eastern kingbird or the tropical kingbird calls. This suggests that <em>Heliconius</em> butterflies may be able to differentiate predatory calls, and potentially the birds associated with those calls.</p></div>","PeriodicalId":8746,"journal":{"name":"Behavioural Processes","volume":null,"pages":null},"PeriodicalIF":1.3000,"publicationDate":"2024-06-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Behavioural changes in aposematic Heliconius melpomene butterflies in response to their predatory bird calls\",\"authors\":\"Sushant Potdar , Madhuri Dinakar , Erica L. 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Here we test whether <em>Heliconius melpomene</em> change their behaviour in response to their predatory bird calls by observing the behaviour of male and female <em>H. m. plessini</em> exposed to calls of <em>Heliconius</em> 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, <em>H. m. plessini</em> butterflies changed their behaviour in response to predator calls. Furthermore, this response was predator specific, as <em>H. m. plesseni</em> did not respond to either the Eastern kingbird or the tropical kingbird calls. 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引用次数: 0
摘要
猎物与捕食者的相互作用导致了许多反捕食特征的进化。其中之一就是猎物能够倾听捕食者的声音并避开它们。虽然猎物对捕食者听觉线索的反捕食行为反应在许多类群中都有很好的描述,但关于蝴蝶是否会因捕食者的叫声而改变行为的研究却很缺乏。Heliconius蝶是难食的,并形成缪勒氏拟态环作为对鸟类捕食者的形态防御策略。与蛱蝶科的许多其他蝴蝶一样,一些 Heliconius 蝴蝶也拥有听觉器官,据推测这些器官有助于发现捕食者。在这里,我们通过观察雌雄H. m. plessini在听到Heliconius鸟类捕食者(红尾鸦雀、迁徙的东方王鸟和栖息的热带王鸟)的叫声时的行为,来检验Heliconius melpomene是否会因捕食者的鸟叫而改变行为。此外,我们还让它们接触食俭鸟托科巨嘴鸟的叫声作为鸟类叫声对照,以及放大的温室背景噪声作为噪声对照。我们发现,个体仅在听到翠鸟叫声时才会改变行为。雄鸟的行走和扑腾行为有所增加,而雌鸟在播放翠鸟叫声时的行为没有变化。求偶、交配和提腹等两性行为并没有随着鸟叫声而改变。我们的研究结果表明,尽管有毒性等主要捕食防御措施,而且处于拟态环中,H. m. plessini蝴蝶仍会因捕食者的叫声而改变行为。此外,这种反应是针对捕食者的,因为 H. m. plesseni 对东方王鸟或热带王鸟的叫声都没有反应。这表明蝶类可能能够分辨捕食者的叫声,也可能分辨与这些叫声相关的鸟类。
Behavioural changes in aposematic Heliconius melpomene butterflies in response to their predatory bird calls
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.
期刊介绍:
Behavioural Processes is dedicated to the publication of high-quality original research on animal behaviour from any theoretical perspective. It welcomes contributions that consider animal behaviour from behavioural analytic, cognitive, ethological, ecological and evolutionary points of view. This list is not intended to be exhaustive, and papers that integrate theory and methodology across disciplines are particularly welcome.