Substrate-borne vibration in Pacific field cricket courtship displays

IF 1 Q3 ENTOMOLOGY
E. D. Broder, Aaron W. Wikle, J. H. Gallagher, R. Tinghitella
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引用次数: 8

Abstract

While thought to be widely used for animal communication, substrate-borne vibration is relatively unexplored compared to other modes of communication. Substrate-borne vibrations are important for mating decisions in many orthopteran species, yet substrate-borne vibration has not been documented in the Pacific field cricket Teleogryllus oceanicus. Male T. oceanicus use wing stridulation to produce airborne calling songs to attract females and courtship songs to entice females to mate. A new male morph has been discovered, purring crickets, which produce much quieter airborne calling and courtship songs than typical males. Purring males are largely protected from a deadly acoustically orienting parasitoid fly, and they are still able to attract female crickets for mating though typical calling song is more effective for attracting mates. Here, we document the first record of substrate-borne vibration in both typical and purring male morphs of T. oceanicus. We used a paired microphone and accelerometer to simultaneously record airborne and substrate-borne sounds produced during one-on-one courtship trials in the field. Both typical and purring males produced substrate-borne vibrations during courtship that temporally matched the airborne acoustic signal, suggesting that the same mechanism (wing movement) produces both sounds. As previously established, in the airborne channel, purring males produce lower amplitude but higher peak frequency songs than typical males. In the vibrational channel, purring crickets produce songs that are higher in peak frequency than typical males, but there is no difference in amplitude between morphs. Because louder songs (airborne) are preferred by females in this species, the lack of difference in amplitude between morphs in the substrate-borne channel could have implications for mating decisions. This work lays the groundwork for investigating variation in substrate-borne vibrations in T. oceanicus, intended and unintended receiver responses to these vibrations, and the evolution of substrate-borne vibrations over time in conjunction with rapid evolutionary shifts in the airborne acoustic signal.
太平洋野地蟋蟀求偶表现的基板振动
虽然被认为广泛用于动物交流,但与其他交流方式相比,基底振动相对未被探索。在许多直脚动物物种中,基质传播的振动对交配决策很重要,但在太平洋蟋蟀Teleogryllus oceanicus中尚未记录到基质传播的振动。雄性海鳗通过翅膀的鸣叫在空中发出鸣叫声来吸引雌性,发出求偶声来引诱雌性交配。一种新的雄性蟋蟀被发现了,这种蟋蟀在空中发出的叫声和求偶声比普通的雄性蟋蟀要安静得多。打呼噜的雄蟋蟀在很大程度上可以免受致命的寄生蝇的伤害,而且它们仍然能够吸引雌蟋蟀交配,尽管典型的鸣叫更有效地吸引配偶。在这里,我们首次记录了典型的和咕噜咕噜的雄性海参的基底传播振动。我们使用配对的麦克风和加速度计同时记录在野外一对一求爱试验中产生的空中和基材传播的声音。在求偶期间,典型的雄性和发出呼噜声的雄性都产生了通过基质传播的振动,这些振动暂时与空中的声音信号相匹配,这表明产生这两种声音的机制是相同的(翅膀运动)。如前所述,在空中通道中,打呼噜的雄性发出的声音振幅较低,但峰值频率高于典型的雄性。在振动通道中,咕噜叫的蟋蟀发出的叫声在峰值频率上高于典型的雄性,但在不同的变型之间没有振幅差异。因为雌性更喜欢响亮的歌声(空中的),所以在基质传播的通道中,变型之间的振幅差异不大,这可能会影响交配决策。这项工作为研究海洋T. oceanicus底物振动的变化,接受者对这些振动的有意和无意的响应,以及底物振动随时间的演变与机载声学信号的快速进化变化奠定了基础。
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
Journal of Orthoptera Research
Journal of Orthoptera Research Agricultural and Biological Sciences-Insect Science
CiteScore
1.90
自引率
25.00%
发文量
20
审稿时长
12 weeks
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