来自地穴的振动研究掩埋甲虫振动交流的可能性

IF 1.4 3区 农林科学 Q2 ENTOMOLOGY
Taina Conrad, Louise Roberts, Sandra Steiger, Marie Ringlein
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引用次数: 0

摘要

交流是动物界的基本要素,对交配、防御和父母照顾等互动至关重要。振动交流在过去常常被忽视,但近几十年来,昆虫利用底物振动作为交流信号的现象已变得十分明显。在以双亲育雏而闻名的 Nicrophorus 属掩埋甲虫中,双亲都会发出敲击声。甲虫一生中有相当长的一段时间是在地下度过的,因此很有可能利用振动作为其交流系统的一部分。由于对该物种进行回放实验具有挑战性,本研究考察了鞘翅目:绢毛甲虫(Nicrophorus vespilloides Herbst)信号在三种土壤类型中的物理传播以及行为,以确定是否可能进行振动交流。我们的目的是确定:(1) 实验室使用的土壤是否与野外的土壤相似;(2) 传播距离是否足以满足甲虫育雏期间的覆盖范围;(3) 雌雄甲虫在击弦的可能性上是否存在差异;(4) 防御信号的传播与育雏信号是否存在差异;(5) 我们是否能确定在击弦期间甲虫的行为能够对信号做出明确且可用的反应。我们操纵甲虫诱导绞杀,然后使用激光多普勒测振仪记录三种基质和不同距离的信号,同时进行行为观察。我们的研究表明,泥炭、椰糠和森林土壤这三种测试基质在振动传播方面存在差异,而且掩埋甲虫的绞杀信号可以在土壤中传播约 25 厘米。我们还发现,甲虫敲击的位置对敲击的总持续时间和次数有很大影响。总之,该物种原则上可以进行振动交流,因为信号在自然基质中的传播距离足够远,可以进行复杂的交流,这为双亲育雏期间的振动交流提供了可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Vibrations from the crypt: Investigating the possibility of vibrational communication in burying beetles

Vibrations from the crypt: Investigating the possibility of vibrational communication in burying beetles

Communication is fundamental in the animal kingdom, essential to interactions such as mating, defense, and parental care. Vibrational communication has often been overlooked in the past, but in recent decades, it has become clear that insects use substrate vibrations as a communication signal. In burying beetles of the genus Nicrophorus, which are known for their biparental brood care, both parents stridulate. Spending a considerable period of their lives underground, it is very likely the beetles utilize vibrations as part of their communication system. As playback experiments are challenging with this species, this study looked at the physical propagation of the signal of Nicrophorus vespilloides Herbst (Coleoptera: Siliphidae) through three soil types, as well as behavior, to see whether vibrational communication is possible. The aims were to determine: (1) whether the soils used in the laboratory compare to soil from the field, (2) whether the distance of propagation is enough for the range the beetles cover during brood care, (3) whether the two sexes show a difference in stridulation likelihood, (4) whether propagation of defensive signals differs from brood care signals, and (5) whether we can determine a behavior during stridulations that shows a clear and useable reaction to the signal. We manipulated beetles to induce stridulation and then used laser Doppler vibrometers to record the signals using three substrates and various distances, alongside behavioral observations. We showed that the three substrates tested, peat, coconut coir, and forest soil, displayed differences in terms of vibrational propagation, and that burying beetle stridulation signals can be transmitted up to about 25 cm in the soil. We also showed that the location where the animals stridulate exerts a significant influence on the total duration and number of stridulations. Overall, vibrational communication is in principle conceivable in this species, as the signals are transmitted far enough in the natural substrate to allow complex communication, opening possibilities for vibrational communication during this biparental brood care.

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来源期刊
CiteScore
3.90
自引率
5.30%
发文量
138
审稿时长
4-8 weeks
期刊介绍: Entomologia Experimentalis et Applicata publishes top quality original research papers in the fields of experimental biology and ecology of insects and other terrestrial arthropods, with both pure and applied scopes. Mini-reviews, technical notes and media reviews are also published. Although the scope of the journal covers the entire scientific field of entomology, it has established itself as the preferred medium for the communication of results in the areas of the physiological, ecological, and morphological inter-relations between phytophagous arthropods and their food plants, their parasitoids, predators, and pathogens. Examples of specific areas that are covered frequently are: host-plant selection mechanisms chemical and sensory ecology and infochemicals parasitoid-host interactions behavioural ecology biosystematics (co-)evolution migration and dispersal population modelling sampling strategies developmental and behavioural responses to photoperiod and temperature nutrition natural and transgenic plant resistance.
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