A Jurassic acanthocephalan illuminates the origin of thorny-headed worms

Luo, Cihang; Parry, Luke A.; Boudinot, Brendon E.; Wang, Shengyu; Jarzembowski, Edmund A.; Zhang, Haichun; Wang, Bo

A Jurassic acanthocephalan illuminates the origin of thorny-headed worms

Cihang Luo, Luke A. Parry, Brendon E. Boudinot, Shengyu Wang, Edmund A. Jarzembowski, Haichun Zhang and Bo Wang ()
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Cihang Luo: Chinese Academy of Sciences
Luke A. Parry: University of Oxford
Brendon E. Boudinot: Senckenberg Research Institute and Natural History Museum
Shengyu Wang: Chinese Academy of Sciences
Edmund A. Jarzembowski: Chinese Academy of Sciences
Haichun Zhang: Chinese Academy of Sciences
Bo Wang: Chinese Academy of Sciences

Nature, 2025, vol. 641, issue 8063, 674-680

Abstract: Abstract Acanthocephala (thorny-headed worms), characterized by the presence of an eversible proboscis with hooks, are a diverse endoparasitic group that infect a wide range of vertebrates and invertebrates1. Although long regarded as a separate phylum, they have several putative sister taxa based on morphological features, including Platyhelminthes (flatworms)2, Priapulida (penis worms)3 and Rotifera (wheel animals)4. Molecular phylogenies have instead recovered them within rotifers5–10, suggesting acanthocephalans are derived from free-living worms with a jaw apparatus (Gnathifera). Their only fossil record is Late Cretaceous eggs11, contributing limited palaeontological information to deciphering their early evolution. Here we describe an acanthocephalan body fossil, Juracanthocephalus daohugouensis gen. et. sp. nov., from the Middle Jurassic Daohugou biota of China. Juracanthocephalus shows unambiguous acanthocephalan characteristics, for example a hooked proboscis, a bursa, as well as a jaw apparatus with discrete elements that is typical of other gnathiferans. Juracanthocephalus shares features with Seisonidea (an epizoic member of Rotifera) and Acanthocephala, bridging the evolutionary gap between jawed rotifers and the obligate parasitic, jawless acanthocephalans. Our results reveal previously unrecognized ecological and morphological diversity in ancient Acanthocephala and highlight the significance of transitional fossils, revealing the origins of this highly enigmatic group of living organisms.

Date: 2025
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DOI: 10.1038/s41586-025-08830-5

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