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Increasing species sampling in chelicerate genomic-scale datasets provides support for monophyly of Acari and Arachnida

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  • Jesus Lozano-Fernandez

    (University of Bristol School of Biological Sciences
    University of Bristol School of Earth Sciences
    Ecology and Environmental Sciences, & Biodiversity Research Institute (IRBio) Universitat de Barcelona)

  • Alastair R. Tanner

    (University of Bristol School of Biological Sciences)

  • Mattia Giacomelli

    (University of Bristol School of Biological Sciences)

  • Robert Carton

    (The National University of Ireland Maynooth)

  • Jakob Vinther

    (University of Bristol School of Biological Sciences
    University of Bristol School of Earth Sciences)

  • Gregory D. Edgecombe

    (The Natural History Museum)

  • Davide Pisani

    (University of Bristol School of Biological Sciences
    University of Bristol School of Earth Sciences)

Abstract

Chelicerates are a diverse group of arthropods, represented by such forms as predatory spiders and scorpions, parasitic ticks, humic detritivores, and marine sea spiders (pycnogonids) and horseshoe crabs. Conflicting phylogenetic relationships have been proposed for chelicerates based on both morphological and molecular data, the latter usually not recovering arachnids as a clade and instead finding horseshoe crabs nested inside terrestrial Arachnida. Here, using genomic-scale datasets and analyses optimised for countering systematic error, we find strong support for monophyletic Acari (ticks and mites), which when considered as a single group represent the most biodiverse chelicerate lineage. In addition, our analysis recovers marine forms (sea spiders and horseshoe crabs) as the successive sister groups of a monophyletic lineage of terrestrial arachnids, suggesting a single colonisation of land within Chelicerata and the absence of wholly secondarily marine arachnid orders.

Suggested Citation

  • Jesus Lozano-Fernandez & Alastair R. Tanner & Mattia Giacomelli & Robert Carton & Jakob Vinther & Gregory D. Edgecombe & Davide Pisani, 2019. "Increasing species sampling in chelicerate genomic-scale datasets provides support for monophyly of Acari and Arachnida," Nature Communications, Nature, vol. 10(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-10244-7
    DOI: 10.1038/s41467-019-10244-7
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    Cited by:

    1. Lorenzo Lustri & Pierre Gueriau & Allison C. Daley, 2024. "Lower Ordovician synziphosurine reveals early euchelicerate diversity and evolution," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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