What determines the number of auditory sensilla in the tympanal hearing organs of Tettigoniidae? Perspectives from comparative neuroanatomy and evolutionary forces

IF 1 Q3 ENTOMOLOGY
J. Strauß
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引用次数: 9

Abstract

Insects have evolved complex receptor organs for the major sensory modalities. For the sense of hearing, the tympanal organ of Tettigoniidae (bush crickets or katydids) shows remarkable convergence to vertebrate hearing by impedance conversion and tonotopic frequency analysis. The main auditory receptors are scolopidial sensilla in the crista acustica. Morphological studies established that the numbers of auditory sensilla are species-specific. However, the factors determining the specific number of auditory sensilla are not well understood. This review provides an overview of the functional organization of the auditory organ in Tettigoniidae, including the diversification of the crista acustica sensilla, a list of species with the numbers of auditory sensilla, and a discussion of evolutionary forces affecting the number of sensilla in the crista acustica and their sensitivity. While all species of Tettigoniidae studied so far have a crista acustica, the number of sensilla varies on average from 15–116. While the relative differences or divergence in sensillum numbers may be explained by adaptive or regressive changes, it is more difficult to explain a specific number of sensilla in the crista acustica of a specific species (like for the model species Ancistrura nigrovittata, Copiphora gorgonensis, Gampsocleis gratiosa, Mecopoda elongata, Requena verticalis, or Tettigonia viridissima): sexual and natural selection as well as allometric relationships have been identified as key factors influencing the number of sensilla. Sexual selection affects the number of auditory sensilla in the crista acustica by the communication system and call patterns. Further, positive allometric relationships indicate positive selection for certain traits. Loss of selection leads to evolutionary regression of the auditory system and reduced number of auditory sensilla. This diversity in the auditory sensilla can be best addressed by comparative studies reconstructing adaptive or regressive changes in the crista acustica.
是什么决定了Tettigonidae鼓室听觉器官中听觉感受器的数量?比较神经解剖学与进化力的观点
昆虫进化出了主要感觉模式的复杂受体器官。在听觉方面,通过阻抗转换和眼压频率分析,Tettigonidae(丛林蟋蟀或蟋蟀)的鼓室管器官与脊椎动物的听觉表现出显著的趋同。主要的听觉感受器是位于听嵴的头节感受器。形态学研究证实,听觉感受器的数量是物种特异性的。然而,决定听觉感受器具体数量的因素尚不清楚。这篇综述概述了Tettigonidae听觉器官的功能组织,包括听嵴感受器的多样性,一份具有听觉感受器数量的物种列表,以及对影响听嵴中感受器数量及其敏感性的进化力的讨论。虽然到目前为止研究的所有Tettigonidae物种都有一个尖脊,但感器的数量平均在15-116个之间。虽然感器数量的相对差异或差异可以通过自适应或回归变化来解释,更难解释特定物种(如模式物种黑脊蛛、戈氏Copiphora gorgonensis、Gratisocleas gratisosa、长脚类Mecopoda elongata、垂直性Requena verticalis或病毒性Tettigonia viridemisia)的听嵴中感受器的特定数量:性选择和自然选择以及异速性关系已被确定为影响感官。性选择通过通信系统和呼叫模式影响听嵴中听觉感受器的数量。此外,正的异速性关系表明对某些性状的正向选择。选择的丧失导致听觉系统的进化退化和听觉感受器数量的减少。听觉感受器的这种多样性可以通过重建听嵴的适应性或回归性变化的比较研究来最好地解决。
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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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