Association between Genetic and Bioacoustic Distances of Tettigoniidae Species (Orthoptera: Tettigonioidea) in the Northeast of China

Pub Date : 2021-12-24 DOI:10.3157/061.147.0403

Qi Chen, Xue Zhang, Xiaoyan Zhu, H. Rehman, Ming Wen, Yinliang Wang, Junjie Zhang, B. Ren

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Abstract

ABSTRACT The association between acoustic signals and genetics is not fully understood as of yet. It is unclear whether the acoustic characters of insect calling songs are correlated with insect genetic divergence. Here, we analyzed the genetic distance using 16S rDNA and cytochrome b sequences and calculated acoustic distance by the intensity distribution histograms statistic on the spectrograms of calling songs. After the alignment, 510 bp of cytochrome b and 542 bp of 16S rDNA sequences were used to calculate the genetic pairwise distance. The Neighbor-Joining phylogenetic analysis of both sequences was generally concordant with taxonomy. For acoustic signals, the L1 norm distance was in the range of [0.133, 0.434], showing a good reflection of the “vocal print” of the species. Finally, based on the two genetic distance matrice and one acoustic matrix, a multiple regression analysis was performed. The cubic regression diagram formed an upward sloping surface, suggesting that the genetic distance was positively correlated with the acoustic distance. This study demonstrates that the evolution rate of mating signal is sufficient in accordance with the gene at an interspecies level in insect.

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中国东北地区毡甲科(直翅目:毡甲总科)物种遗传距离与生物声学距离的关系

声学信号与遗传学之间的关系尚未被完全理解。昆虫鸣叫的声学特征是否与昆虫遗传分化有关尚不清楚。本文利用16S rDNA和细胞色素b序列分析了它们的遗传距离，并利用鸣叫声谱图上的强度分布直方图统计计算了它们的声距离。比对完成后，利用510 bp的细胞色素b和542 bp的16S rDNA序列计算遗传两两距离。两个序列的邻居连接系统发育分析与分类基本一致。对于声信号，L1范数距离在[0.133,0.434]范围内，很好地反映了该物种的“声纹”。最后，基于两个遗传距离矩阵和一个声学矩阵进行多元回归分析。三次回归图形成一个向上倾斜的曲面，表明遗传距离与声距离呈正相关。本研究表明，在昆虫种间水平上，交配信号的进化速度与基因是完全一致的。

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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