A new whip scorpion (Arachnida: Thelyphonida) with a phoretic mite (Acariformes: Trochometridiidae) from Mid-Cretaceous Kachin amber.

IF 2.3 Q2 ECOLOGY

BMC ecology and evolution Pub Date : 2025-05-26 DOI:10.1186/s12862-025-02392-w

Ziying Wu, Jason A Dunlop, Pavel B Klimov, Huijuan Mai, Ancheng Peng, Yu Liu

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Abstract

Background: Mid-Cretaceous Kachin amber is a valuable resource for studying the diversity, evolution, and ecology of microarthropods, including arachnids. Its exceptional preservation offers a unique opportunity to uncover biological associations between organisms with high fidelity. Whip scorpions (Thelyphonida) are rare in the fossil record, with a few known from the Paleozoic era and Cretaceous period. However, the ecological interactions of these fossils with other organisms remain largely unexplored.

Results: Here, we describe a new whip scorpion species, Mesothelyphonus xiaoae sp. nov., from Kachin amber. This species is diagnosed by its relatively small body size, an accessory tooth on the pedipalp coxal apophysis, six teeth on the pedipalpal trochanter, and an unmodified abdominal sternite III. Notably, the fossil includes a heterostigmatic mite (Acariformes: Prostigmata: Heterostigmata: Trochometridiidae) attached to the first leg of the whip scorpion. The mite appears to have selected a densely setose area on a limb primarily used for sensory purposes by the host, which may have made it more difficult to dislodge. This association likely represents an instance of phoresy, where the mite benefits from transportation and protection provided by the whip scorpion.

Conclusion: Based on modern knowledge of Trochometridium biology and host associations, we suggest that while the whip scorpion served as an incidental host, the primary host was likely a ground-nesting Apoidea (bees or wasps). This hypothesis implies that Mid-Cretaceous ecosystems included early apoids exhibiting nesting behavior, providing an essential niche for the development of this ancient symbiosis.

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中白垩世克钦琥珀中鞭蝎一新种（蛛形纲：绢蛛纲）和翅螨一新种（蛛形纲：绢蛛科）。

背景：中白垩世克钦琥珀是研究包括蛛形纲动物在内的微型节肢动物多样性、进化和生态学的宝贵资源。它的特殊保存提供了一个独特的机会，以高保真度揭示生物之间的生物学联系。鞭蝎（Thelyphonida）在化石记录中是罕见的，只有一些已知的来自古生代和白垩纪。然而，这些化石与其他生物的生态相互作用在很大程度上仍未被探索。结果：本文报道了克钦琥珀中鞭蝎新种Mesothelyphonus xiaoae sp. nov.。该物种的诊断依据是其相对较小的体型，在肢端尾部突突上有一颗副牙，在肢端粗隆上有六颗牙齿，以及一个未修饰的腹部胸骨III。值得注意的是，该化石包括一只附着在鞭蝎的第一条腿上的异柱螨（无虫目：prostimata：异柱目：trochometrididae）。螨虫似乎选择了四肢上一个浓密的区域，主要用于宿主的感官目的，这可能使它更难以被驱逐。这种联系可能代表了一种虚假的例子，在这种情况下，螨虫从鞭蝎提供的运输和保护中受益。结论：基于对恙虫病生物学和寄主关系的现代认识，我们认为鞭蝎可能是恙虫病的偶然寄主，而主要寄主可能是一种地面筑巢的Apoidea（蜜蜂或黄蜂）。这一假设表明，白垩纪中期的生态系统包括早期的类人猿，它们表现出筑巢行为，为这种古老的共生关系的发展提供了一个重要的生态位。

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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BMC ecology and evolution

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