十足甲壳类动物的声探测和通信。

A N Popper, M Salmon, K W Horch
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引用次数: 213

摘要

本文综述了十足类甲壳类动物在声音和振动探测方面的行为、生理、解剖和生态方面的研究进展。我们的目的是证明,尽管在过去的20年里,这一领域的工作非常有限,但有证据表明,至少有一些十足甲壳类动物能够以与水生和陆生脊椎动物相似的探测和处理机制来探测和利用声音。一些水生的十足甲壳类动物会发出声音,其中许多动物能够敏锐地探测到基底的振动,从而判断出配偶、竞争对手或捕食者的距离。一些半陆栖蟹产生并利用声音进行交流。这些物种将声音刺激视为空气或基质传播的能量,在声音“合唱”中进行社会互动,并可能使用“呼叫”来吸引配偶。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Acoustic detection and communication by decapod crustaceans.

This paper reviews behavioral, physiological, anatomical, and ecological aspects of sound and vibration detection by decapod crustaceans. Our intent is to demonstrate that despite very limited work in this area in the past 20 years, evidence suggests that at least some decapod crustaceans are able to detect and use sounds in ways that parallel detection and processing mechanisms in aquatic and terrestrial vertebrates. Some aquatic decapod crustaceans produce sounds, and many are able to detect substrate vibration at sensitivities sufficient to tell of the proximity of mates, competitors, or predators. Some semi-terrestrial crabs produce and use sounds for communication. These species detect acoustic stimuli as either air- or substrate-borne energies, socially interact in acoustic "choruses," and probably use "calls" to attract mates.

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