大翅可能会发出更有吸引力的鸣声:双色翼翅的两种形态的声学差异(直翅目:蝶翅科)

Pub Date : 2021-12-24 DOI:10.3157/061.147.0402
Qi Chen, Xue Zhang, Huiwen Tan, Lanqin Li, Ming Wen, Yinliang Wang, Junjie Zhang, B. Ren
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引用次数: 0

摘要

翅膀二形现象是许多昆虫物种普遍存在的现象。翅目双色蛱蝶具有明显的翅二态性。本文用立体显微镜和扫描电子显微镜对两种翅型的鸣声进行了记录,并对鸣声产生源进行了观察。两种翅膀形态在声学信号上存在差异,但在形态特征上无明显差异。长后翅的个体发出充满活力的鸣叫声,即脉冲持续时间较长但间隔时间较短的鸣叫声。因此,我们推断声信号的优势是对再现缺陷的一种补偿。此外,还进行了一些分子测试,以在分子水平上澄清它们之间的差异。长后翅的鸟儿聚在一起,短后翅的鸟儿聚在一起。我们提出,这两组人在出生时就已经存在分子差异。从鸣声器官的一致性和声音信号的分化可以推断,鸣声器官的行为特征可能比形态特征进化得更快。
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Macroptery Might Produce More Attractive Calling Songs: Acoustic Differences between Two Wing Morphologies of Metrioptera bicolor Philippi (Orthoptera: Tettigoniidae)
ABSTRACT Wing dimorphism is a widespread phenomenon of many insect species. The katydid species Metrioptera bicolor Philippi displays distinct wing dimorphism. In this paper, we recorded the calling songs of two wing morphologies of the species and observed the acoustic generators under stereoscope and scanning electron microscope (SEM). The two wing morphologies showed differences in acoustic signals but no obvious differences in morphological traits. The individuals with long hind-wings produced an energetic call, i.e., the calling songs with longer pulse duration but shorter interval. Therefore we infer that the advantage of acoustic signals is a compensation for the weakness in reproduction. Furthermore, some molecular tests were performed to clarify the differences between them at a molecular level. The individuals with long hind-wings got together, while the short-winged individuals were in a group. We proposed that the molecular difference has already existed between these two groups at birth. From the consistency of the stridulatory organs and the differentiation of the acoustic signals, we could infer the behavioral traits might evolve rapidly than the morphological features.
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