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Molecular phylogenetics, speciation, and long distance dispersal in tardigrade evolution: A case study of the genus Milnesium

[Display omitted] •Proven homoplasy for morphological characters used in the descriptions of species of the genus Milnesium (Milnesiidae, Apochela).•Provide evidence of long-distance dispersal (LDD) in tardigrades.•Evaluate evolutionary processes influencing tardigrade genetic diversity and structur...

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Published in:Molecular phylogenetics and evolution 2022-04, Vol.169, p.107401-107401, Article 107401
Main Authors: Guil, N., Guidetti, R., Cesari, M., Marchioro, T., Rebecchi, L., Machordom, A.
Format: Article
Language:English
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Summary:[Display omitted] •Proven homoplasy for morphological characters used in the descriptions of species of the genus Milnesium (Milnesiidae, Apochela).•Provide evidence of long-distance dispersal (LDD) in tardigrades.•Evaluate evolutionary processes influencing tardigrade genetic diversity and structure.•Different biogeographic pattenrs (i.e. wide vs local scale distribution) characterize tardigrade popolations/species. Microorganisms (sensu lato, i.e., including micrometazoans) are thought to have cosmopolitan geographic distributions due to their theoretically unlimited dispersal capabilities, a consequence of their tiny size, population dynamics, and resistant forms. However, several molecular studies of microorganisms have identified biogeographic patterns indicating cryptic speciation and/or weak species definitions. Using a multi-locus approach with the genus Milnesium (Tardigrada), we aimed to determine the genetic structure of populations worldwide and the effects of long distance dispersal (LDD) on genetic connectivity and relationships across the six continents. Our results on this micrometazoan’s genetic structure and LDD at global and micro-local scales indicate contrasting patterns not easily explained by a unique or simple phenomenon. Overall, we report three key findings: (i) confirmation of long distance dispersal for tardigrades, (ii) populations with globally-shared or endemic micro-local haplotypes, and (iii) a supported genetic structure instead of the homogeneous genetic distribution hypothesized for microorganisms with LDD capabilities. Moreover, incongruences between our morphological and molecular results suggest that species delimitation within the genus Milnesium could be problematic due to homoplasy. Duality found for Milnesium populations at the global scale, namely, a molecular phylogenetic structure mixed with widely distributed haplotypes (but without any apparent biogeographic structure), is similar to patterns observed for some unicellular, prokaryotic and eukaryotic, microorganisms. Factors influencing these patterns are discussed within an evolutionary framework.
ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2022.107401