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A comparative analysis of dispersal syndromes in terrestrial and semi-terrestrial animals

Journal

ECOLOGY LETTERS
Volume 17, Issue 8, Pages 1039-1052

Publisher

WILEY
DOI: 10.1111/ele.12303

Keywords

Age at maturity; dispersal costs; dispersal phenotypes; fecundity; global change; life-history trade-offs; phylogenetic signal; survival; thermoregulation; trophic levels

Categories

Funding

  1. French National Research Agency (ANR) [ANR-13-JSV7-0010-01]
  2. SCALES project (Securing the Conservation of biodiversity across Administrative Levels and spatial, temporal, and Ecological Scales) - European Commission [226 852]
  3. BelSpo (IAPproject SPEEDY)
  4. FWO Research Network EVENET
  5. Hesse's Ministry of Higher Education, Research, and the Arts
  6. Agence Nationale de la Recherche (ANR) [ANR-13-JSV7-0010] Funding Source: Agence Nationale de la Recherche (ANR)

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Dispersal, the behaviour ensuring gene flow, tends to covary with a number of morphological, ecological and behavioural traits. While species-specific dispersal behaviours are the product of each species' unique evolutionary history, there may be distinct interspecific patterns of covariation between dispersal and other traits ('dispersal syndromes') due to their shared evolutionary history or shared environments. Using dispersal, phylogeny and trait data for 15 terrestrial and semi-terrestrial animal Orders (> 700 species), we tested for the existence and consistency of dispersal syndromes across species. At this taxonomic scale, dispersal increased linearly with body size in omnivores, but decreased above a critical length in herbivores and carnivores. Species life history and ecology significantly influenced patterns of covariation, with higher phylogenetic signal of dispersal in aerial dispersers compared with ground dwellers and stronger evidence for dispersal syndromes in aerial dispersers and ectotherms, compared with ground dwellers and endotherms. Our results highlight the complex role of dispersal in the evolution of species life-history strategies: good dispersal ability was consistently associated with high fecundity and survival, and in aerial dispersers it was associated with early maturation. We discuss the consequences of these findings for species evolution and range shifts in response to future climate change.

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