约 1 亿年前琥珀中的异常蛇蝇幼虫与幼虫-蛹过渡时期的进化

J. Haug, Ana Zippel, Simon Linhart, Patrick Müller, C. Haug
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引用次数: 0

摘要

昆虫类(更确切地说,是其内生类群 Holometabola)在进化上的成功,部分原因在于它们的本体,即幼虫和成虫在形态和生态上的差异。这种分化不仅出现在甲虫、蝴蝶和蜜蜂等广为人知的大型类群中,也出现在种类相对较少的蛇蝇类(Raphidioptera)中。尽管物种数量很少,但蛇蝇的进化意义却非常重大,因为它们是全翅类早期多样化的一部分,而且仍然表现出保留自全翅类地面模式的一些多形性特征,例如活动的蛹。此外,在发育过程中,一些蛇蛉表现出幼虫和蛹的混合特征,有时甚至表现出成虫的特征,这种现象被称为 "元蝶"(metathetely)。我们在此报告了缅甸琥珀中的一亿年前的蛇蝇幼虫化石,其特征可能让人联想到元蝶。我们测量了该标本及其他蛇蝇幼虫和蛹身体的不同尺寸,计算并比较了幼虫之间的比率。新化石与现生蛹的相似之处在于前胸的长度较大,与现代成虫的相似之处在于前胸的宽度较小,但也与其他蛇蛉幼虫化石相似,例如跗节不分节,触角仅细分为五个元素。这些来自不同发育阶段的特征表明,化石蛇蝇的变态过程没有现生蛇蝇那么明显。类似的本体发育模式在欧陆脊椎动物的其他类群中也是已知的,早期代表物种的发育较为渐进,而现代代表物种的变态则较为明显,这表明这些类群在进化过程中发生了异时性事件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Unusual snakefly larvae in about 100 million-year-old amber and the evolution of the larva-pupa transition
The evolutionary success of Insecta, more precisely of its ingroup Holometabola, has partly been explained by their ontogeny, with larvae and adults differing in their morphology and ecology. This differentiation occurs in large and well-known groups such as beetles, butterflies and bees, but also in the relatively species-poor group of snakeflies (Raphidioptera). Despite the rather small number of species, snakeflies are evolutionarily very significant as they were part of the early diversification of Holometabola and still exhibit several plesiomorphic traits retained from the ground pattern of the latter, for example, a mobile pupa. Furthermore, during development, some snakeflies show a mixture of larval and pupal, sometimes even of adult characters, a phenomenon called metathetely. We here report a 100 million-year-old fossil snakefly larva from Myanmar amber with possible characters reminiscent of metathetely. Different dimensions of the body were measured in the specimen and other snakefly larvae and pupae, and ratios were calculated and compared among the larvae. The new fossil shows similarities to extant pupae in the larger length of the prothorax, similarities to modern adults in the small width of the prothorax, but also similarities to other fossil snakefly larvae such as the undivided tarsus and the antenna being subdivided into only five elements. Such a mixture of characters from different developmental stages points to a less pronounced metamorphosis in fossil snakeflies than in extant ones. Similar ontogenetic patterns, with a more gradual development in earlier representatives evolving into a more pronounced metamorphosis in modern representatives, are also known in other groups of Euarthropoda and point to heterochronic events in the evolution of these lineages.
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