Ecomorphological diversification following continental colonization in muroid rodents (Rodentia: Muroidea) |
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Authors: | Bader H Alhajeri John J Schenk Scott J Steppan |
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Institution: | 1. Department of Biological Science, Florida State University, Tallahassee, FL, USA;2. Department of Biological Sciences, Kuwait University, Safat, Kuwait;3. Department of Ecology and Evolutionary Biology, Tulane University, New Orleans, LA, USA |
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Abstract: | The emergence of exceptionally diverse clades is often attributed to ecological opportunity. For example, the exceptional diversity in the most diverse superfamily of mammals, muroid rodents, has been explained in terms of multiple independent adaptive radiations. If multiple ecological opportunity events are responsible for generating muroid diversity, we expect to find evidence of these lineages ecologically diversifying following dispersal into new biogeographical areas. In the present study, we tested the trait‐based predictions of ecological opportunity using data on body size, appendages, and elevation in combination with previously published data on biogeographical transitions and a time‐calibrated molecular phylogeny. We identified weak to no support of early ecological diversification following the initial colonizations of all continental regions, based on multiple tests, including node height tests, disparity through time plots, evolutionary model comparison, and Bayesian analysis of macroevolutionary mixtures. Clades identified with increased diversification rates, not associated with geographical transitions, also did not show patterns of phenotypic divergence predicted by ecological opportunity, which suggests that phylogenetic diversity and phenotypic disparity may be decoupled in muroids. These results indicate that shifts in diversification rates and biogeographically‐mediated ecological opportunity are poor predictors of phenotypic diversity patterns in muroids. |
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Keywords: | appendage morphology biogeography body mass disparity diversity ecological opportunity elevation evolutionary rate phenotype South America |
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