Morphology of larvae and pupae of the genus Autocrates (Coleoptera: Trictenotomidae) and its phylogenetic implications

Pub Date : 2022-10-25 DOI:10.37520/aemnp.2022.015

Hee-Wook Cho, Min Chul Kwon, Sang Ki Kim, R. Beutel

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Abstract

The trictenotomid genus Autocrates Thomson, 1860 is remarkable for its large and robust adults, but its larval morphology and bionomics have been unknown over the last 160 years. Here, we describe and illustrate in detail the eggs, and also the first and last instar larva and the pupa of Autocrates maqueti Drumont, 2006, based on specimens reared from identiﬁed adults collected in South Korea. The first instar larva is very similar to the known trictenotomid larvae of the genus Trictenotoma Gray, 1832, sharing the following features: distinctly flattened and parallel-sided, well-sclerotized head and largely unpigmented postcephalic body, lyre-shaped frontal arms, very short coronal suture, five pairs of stemmata, asymmetrical and tridentate mandibles with mola, simple and apically upturned urogomphi, and absence of longitudinal ridges on the thorax and abdomen. Differences occur in the primary chaetotaxy. The last instar larva is almost identical with Trictenotoma in general appearance, but the longitudinal tergal ridges of Autocrates are much denser and more widely distributed than those of Trictenotoma. Our preliminary assessment of features of immature stages confirms a close relationship of Trictenotomidae with the “salpingid group”, i.e. Salpingidae, Boridae, Pyrochroidae and Pythidae. A sister group relationship with Pythidae is likely. The putative synapomorphy is the subdivision of the ventral element of tergites IX, even though this condition is not visible in the first instars of Autocrates, and quite indistinct (but recognizable) in the last larval stage. The complete mitochondrial genome of A. maqueti is provided. A preliminary phylogenetic analysis of trictenotomid species is presented using two mitochondrial genes (16S and COI). The morphology of eggs and biological information on feeding and oviposition behaviors are also provided with photographs of adults and eggs.

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Autocrates属幼虫和蛹的形态及其系统发育意义

trictenotomid genus Autocrates Thomson, 1860以其体型大而强壮的成虫而闻名，但其幼虫的形态和生物学在过去的160年里一直为人所知。在这里，我们详细描述和说明了2006年Autocrates maqueti Drumont的卵，以及第一和最后一龄幼虫和蛹，基于在韩国收集的鉴定成虫的标本。第一龄幼虫与已知的Trictenotoma Gray(1832年)的Trictenotoma幼虫非常相似，具有以下特征:明显扁平且平行，头部硬化良好，头后体基本无色素，弦状前肢，冠状缝合非常短，五对茎，下颌不对称且三叉，下颌有臼齿，简单且顶部上翘，胸腹上无纵向脊。差异发生在初级被毛分类中。末龄幼虫在总体外形上与毛线虫几乎相同，但纵脊比毛线虫密度大得多，分布也更广。我们对未成熟阶段特征的初步评估证实了Trictenotomidae与“salpingid group”(即Salpingidae, Boridae, Pyrochroidae和Pythidae)的密切关系。很可能是与毕达哥拉斯科的姐妹群关系。假定的突触性是tergites IX的腹侧成分的细分，尽管这种情况在Autocrates的第一阶段不可见，并且在最后的幼虫阶段相当模糊(但可识别)。提供了A. maqueti的完整线粒体基因组。利用线粒体基因(16S和COI)对trictenotomid物种进行了初步的系统发育分析。卵的形态和取食和产卵行为的生物学信息也提供了成虫和卵的照片。

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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