Body size and life history shape the historical biogeography of tetrapods

Dispersal across biogeographic barriers is a key process determining global patterns of biodiversity as it allows lineages to colonize and diversify in new realms. Here we demonstrate that past biogeographic dispersal events often depended on species’ traits, by analysing 7,009 tetrapod species in 5...

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Veröffentlicht in:	Nature ecology & evolution 2023-09, Vol.7 (9), p.1467-1479
Hauptverfasser:	Weil, Sarah-Sophie, Gallien, Laure, Nicolaï, Michaël P. J., Lavergne, Sébastien, Börger, Luca, Allen, William L.
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Sprache:	eng
Schlagworte:	631/158/851 631/158/852 631/158/857 Biodiversity Biogeography Biological and Physical Anthropology Biomedical and Life Sciences Body Size Dispersal Dispersion Ecology Ecology, environment Evolutionary Biology Life history Life History Traits Life Sciences Mathematical models Paleontology Phenotype Statistical analysis Zoology
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creator	Weil, Sarah-Sophie Gallien, Laure Nicolaï, Michaël P. J. Lavergne, Sébastien Börger, Luca Allen, William L.
description	Dispersal across biogeographic barriers is a key process determining global patterns of biodiversity as it allows lineages to colonize and diversify in new realms. Here we demonstrate that past biogeographic dispersal events often depended on species’ traits, by analysing 7,009 tetrapod species in 56 clades. Biogeographic models incorporating body size or life history accrued more statistical support than trait-independent models in 91% of clades. In these clades, dispersal rates increased by 28–32% for lineages with traits favouring successful biogeographic dispersal. Differences between clades in the effect magnitude of life history on dispersal rates are linked to the strength and type of biogeographic barriers and intra-clade trait variability. In many cases, large body sizes and fast life histories facilitate dispersal success. However, species with small bodies and/or slow life histories, or those with average traits, have an advantage in a minority of clades. Body size–dispersal relationships were related to a clade’s average body size and life history strategy. These results provide important new insight into how traits have shaped the historical biogeography of tetrapod lineages and may impact present-day and future biogeographic dispersal. Using trait-dependent biogeographic models to analyse data for >7,000 tetrapod species, the authors show that large body size and a fast life history strategy facilitate dispersal success, although this was also true for small body size and a slow life history strategy in a minority of clades.
doi_str_mv	10.1038/s41559-023-02150-5
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subjects	631/158/851 631/158/852 631/158/857 Biodiversity Biogeography Biological and Physical Anthropology Biomedical and Life Sciences Body Size Dispersal Dispersion Ecology Ecology, environment Evolutionary Biology Life history Life History Traits Life Sciences Mathematical models Paleontology Phenotype Statistical analysis Zoology
title	Body size and life history shape the historical biogeography of tetrapods
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