Temperature increase impairs recognition among nestmates in the social wasp Polybia paulista H. von Ihering, 1896 (Vespidae: Polistinae: Epiponini)

Q3 Agricultural and Biological Sciences
K. B. Michelutti, Nathan Rodrigues Batista, S. E. Lima-Júnior, C. Cardoso, W. Antonialli-Júnior
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引用次数: 0

Abstract

Cuticular hydrocarbons (CHCs) of most terrestrial arthropods primarily serve as a protective barrier against desiccation and infection. Throughout evolution, these compounds have acquired another fundamental function: the exchange of signals during interactions between nestmates. However, even though cuticular hydrocarbons perform a dual function in social insects, little is known about the effect(s) of one function on the other in social insects, and no study has evaluated this relationship in social wasps. Therefore, the present study tests the hypothesis that the level of aggressiveness presented during induced encounters between nestmates of Polybia paulista who were subjected to different conditions temperature is different than between nestmates who remained under the same temperature conditions. If the hypothesis is confirmed, it is likely because the cuticle of the wasps that had been exposed to temperature variation adjusted to these conditions leading them not to recognize the cuticular chemical signature of their colony. To test this hypothesis, workers were exposed to temperature variation in a BOD chamber and then subjected to encounters with workers who were maintained at a constant temperature of 24℃. We also used control groups to evaluate the effect of isolation alone among the groups. According to our results, our hypothesis was confirmed, the level of aggressiveness presented between nestmates who were exposed to temperature variation and those who remained at 24℃ was significantly higher than the levels of aggressiveness presented between nestmates who remained isolated but under constant temperature during the same period, in some cases, it was similar to the aggressiveness presented in encounters between wasps from different colonies. During these encounters, wasps performed alarm behavior, bites, and stings not seen during encounters between wasps that remained under the same temperature, but in isolated groups. The lack of aggressive behavior under isolated conditions indicates that isolation had no effect on chemical recognition signature. These results suggest that temperature variation may have caused some change in the cues that allow recognition between nestmates. On the other hand, these results were not caused by isolation or stress generated by the study design and difference in the CHC profile of workers, as described in the literature, is consistent with our results.
温度升高对蜂群中蜜蜂的识别能力的影响(寄生蜂科:寄生蜂科:寄生蜂科)
大多数陆生节肢动物的表皮碳氢化合物(CHCs)主要作为防止干燥和感染的保护屏障。在整个进化过程中,这些化合物获得了另一种基本功能:在同伴之间的相互作用中交换信号。然而,尽管表皮碳氢化合物在群居昆虫中具有双重功能,但人们对一种功能对另一种功能的影响知之甚少,也没有研究评估过这种关系在群居黄蜂中的作用。因此,本研究验证了不同温度条件下的保利波利亚雌鸟诱导接触时的攻击水平与相同温度条件下的保利波利亚雌鸟诱导接触时的攻击水平存在差异的假设。如果这一假设得到证实,很可能是因为黄蜂的角质层在温度变化的环境中适应了这些条件,导致它们无法识别出它们所在群体的角质层化学特征。为了验证这一假设,工人们暴露在BOD室的温度变化中,然后与保持在24℃恒定温度下的工人相遇。我们还使用对照组来评估组间单独隔离的效果。结果表明,温度变化和24℃环境下的攻击水平明显高于恒温隔离环境下的攻击水平,在某些情况下,攻击水平与不同蜂群的黄蜂相遇时的攻击水平相似。在这些接触中,黄蜂表现出警觉行为,叮咬和蜇伤,这在保持相同温度的黄蜂之间的接触中是看不到的,但在孤立的群体中。在隔离条件下缺乏攻击行为表明隔离对化学识别特征没有影响。这些结果表明,温度的变化可能导致了一些线索的变化,这些线索使筑巢者之间能够识别。另一方面,这些结果不是由研究设计产生的隔离或压力引起的,文献中描述的工人CHC概况的差异与我们的结果一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Papeis Avulsos de Zoologia
Papeis Avulsos de Zoologia Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
1.50
自引率
0.00%
发文量
59
审稿时长
8 weeks
期刊介绍: Papéis Avulsos de Zoologia to publish original contributions in systematics, paleontology, evolutionary biology, ecology, taxonomy, anatomy, behavior, functional morphology, molecular biology, ontogeny, faunistic studies, and biogeography. Its abbreviated title is Pap. Avulsos de Zool. (São Paulo), which should be used in bibliographies, footnotes and bibliographical references and strips.
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