Affiliation:
1. Dept. of Biology University of North Carolina at Chapel Hill Chapel Hill North Carolina USA
Abstract
Abstract
Phenotypic traits are expected to be more similar among closely related species than among species that diverged long ago (all else being equal). This pattern, known as phylogenetic niche conservatism, also applies to traits that are important to determine the niche of species. To test this hypothesis on ecological niches, we analysed isotopic data from 254 museum study skins from 12 of the 16 species of the bird genus Cinclodes and measured stable isotope ratios for four different elements: carbon, nitrogen, hydrogen and oxygen. We find that all traits, measured individually, or as a composite measurement, lack any phylogenetic signal, which in turn suggests a high level of lability in ecological niches. We compared these metrics to the measurements of morphological traits in the same genus and found that isotopic niches are uniquely evolutionarily labile compared to other traits. Our results suggest that, in Cinclodes, the realized niche evolves much faster than expected by the constraints of phylogenetic history and poses the question of whether this is a general pattern across the tree of life
Abstract
We studied the pace of evolution of morphology and ecology in Cinclodes ovenbirds using stable isotope analysis, morphometrics, and comparative phylogenetics. We show that niche characteristics of Cinclodes have lower phylogenetic signal, and are less phylogenetically conserved than their morphology, suggesting that ecological evolution has proceeded at a faster pace than morphology alone would suggest in these birds.
Funder
National Science Foundation
Publisher
Oxford University Press (OUP)
Subject
Ecology, Evolution, Behavior and Systematics