Open AccessTrophic convergence drives morphological convergence in marine tetrapods
Author(s) -
Neil P. Kelley,
Ryosuke Motani
Publication year - 2015
Publication title -
biology letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.596
H-Index - 110
eISSN - 1744-957X
pISSN - 1744-9561
DOI - 10.1098/rsbl.2014.0709
Subject(s) - biology , convergent evolution , clade , phylogenetic tree , ecomorphology , trophic level , morphology (biology) , evolutionary biology , phylogenetics , ecology , adaptation (eye) , tetrapod (structure) , phylogenetic comparative methods , marine invertebrates , parallel evolution , extant taxon , zoology , paleontology , habitat , biochemistry , neuroscience , gene
Marine tetrapod clades (e.g. seals, whales) independently adapted to marine life through the Mesozoic and Caenozoic, and provide iconic examples of convergent evolution. Apparent morphological convergence is often explained as the result of adaptation to similar ecological niches. However, quantitative tests of this hypothesis are uncommon. We use dietary data to classify the feeding ecology of extant marine tetrapods and identify patterns in skull and tooth morphology that discriminate trophic groups across clades. Mapping these patterns onto phylogeny reveals coordinated evolutionary shifts in diet and morphology in different marine tetrapod lineages. Similarities in morphology between species with similar diets—even across large phylogenetic distances—are consistent with previous hypotheses that shared functional constraints drive convergent evolution in marine tetrapods.
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