Ecomorphological structure of avian communities changes upon arrival of wintering species

Andreia Malpica, Sara Covarrubias, Rafael Villegas-Patraca, Leonel Herrera-Alsina*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

3 Citations (Scopus)

Abstract

Community composition reflects evolutionary and ecological processes such as diversification and species assortment. Communities are generally considered to be saturated, which means that the number of species is maximized and that regulatory mechanisms, such as interspecific competition, prevent the addition of new species. In the tropics, however, species numbers of local bird assemblages double up each winter after the arrival of migratory species, which suggests that a rearrangement of niches occurs. Here ecological space is defined by morphological traits that reflect the ecological position of species, to describe changes in the structure of local communities. We found that the average morphological distance between species was reduced, and the volume (the total extent of trait space) was expanded with the arrival of migrants, indicating that newcomers occupy the periphery and the interior of the available ecological space. Furthermore, with greater morphological differences between resident species, higher numbers of migratory species can take advantage of free space and potentially exploit unused resources due to their intermediate morphology. We highlight the differences in the attributes of resident versus migratory species that may allow both to he accommodated in the morphological space, and we suggest coexistence theory as a possible explanation for the co-occurrence of similar species. (C) 2017 Gesellschaft fur Okologie. Published by Elsevier GmbH. All rights reserved.

Original languageEnglish
Pages (from-to)60-67
Number of pages8
JournalBasic and Applied Ecology
Volume24
DOIs
Publication statusPublished - Nov-2017

Keywords

  • Packing
  • Migration
  • Assemblages
  • Niche
  • Morphological analysis
  • MIGRATION SYSTEMS
  • BIRDS
  • FLOCKS
  • WORLD
  • COEXISTENCE
  • TEMPERATE
  • EVOLUTION
  • RICHNESS
  • ECOLOGY

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