A molecular palaeobiological exploration of arthropod terrestrialization

Jesus Lozano-Fernandez, Robert Carton, Alastair R. Tanner, Mark N. Puttick, Mark Blaxter, Jakob Vinther, Jørgen Olesen, Gonzalo Giribet, Gregory D. Edgecombe, Davide Pisani

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    Abstract

    Understanding animal terrestrialization, the process through which animals
    colonized the land, is crucial to clarify extant biodiversity and biological
    adaptation. Arthropoda (insects, spiders, centipedes and their allies) represent
    the largestmajority of terrestrial biodiversity.Herewe implemented amolecular
    palaeobiological approach, merging molecular and fossil evidence, to elucidate
    the deepest history of the terrestrial arthropods. We focused on the three independent,
    Palaeozoic arthropod terrestrialization events (those of Myriapoda,
    Hexapoda and Arachnida) and showed that a marine route to the colonization
    of land is the most likely scenario.Molecular clock analyses confirmed an origin
    for the three terrestrial lineages bracketed between the Cambrian and the Silurian. While molecular divergence times for Arachnida are consistent with the fossil record,Myriapoda are inferred to have colonized land earlier, substantially predating trace or body fossil evidence. An estimated origin of myriapods by the Early Cambrian precedes the appearance of embryophytes and perhaps even terrestrial fungi, raising the possibility that terrestrialization had independent
    origins in crown-group myriapod lineages, consistent with morphological arguments for convergence in tracheal systems. This article is part of the themed issue ‘Dating species divergences using rocks and clocks’.
    Original languageEnglish
    Article number20150133
    JournalPhilosophical Transactions of the Royal Society B: Biological Sciences
    Volume371
    Issue number1699
    Number of pages12
    ISSN0962-8436
    DOIs
    Publication statusPublished - 19 Jul 2016

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