Phenotype predicts interspecific dominance hierarchies in a cloud-forest hummingbird guild

Facundo Fernandez-Duque, Eliot T. Miller, Matias Fernandez-Duque, Jay Falk, Gabriela Venable, Sophie Rabinowicz, C. Dustin Becker, Mark E. Hauber

Research output: Contribution to journalArticlepeer-review

Abstract

Competition over resources often leads to intra- and interspecific interactions, which can be detrimental to the individuals involved. Thus, natural selection should favor communication systems that reliably convey information regarding the relative competitive abilities of an individual, reducing the need for physically damaging confrontation. Body size, sex, age, relatedness, and ornamentation are important factors determining dominance across diverse taxa in intraspecific interactions. These traits, when perceptible, may serve as signals across species in guilds that have frequent interspecific interactions. Hummingbirds provide a tractable system to study such community dynamics due to their high frequency of interactions, variable ornamentation, diverse body sizes, fast metabolism, and large overlap in resource utilization. Even in this system, potential interactions between morphology and coloration are rarely accounted for together when analyzing dominance between species. We take a novel approach to understanding interspecific dominance by assessing behavior, morphology, and coloration across different types of behavioral interactions. Across 11 tropical montane hummingbird species, we find that dominance is predicted by wing size and some metrics of plumage coloration. However, the biological significance of these factors varies between the different dominance behaviors performed. These results inform our understanding of interspecific signaling and its role in the evolution of intraguild communication and resource competition.

Original languageEnglish (US)
Article numbere13410
JournalEthology
Volume130
Issue number1
DOIs
StatePublished - Jan 2024

Keywords

  • community ecology
  • dominance
  • ecology
  • interspecific interactions

ASJC Scopus subject areas

  • Ecology, Evolution, Behavior and Systematics
  • Animal Science and Zoology

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