Titelangaben
Sayol, Ferran ; Steinbauer, Manuel ; Blackburn, T. M. ; Antonelli, Alexandre ; Faurby, S.:
Anthropogenic extinctions conceal widespread evolution of flightlessness in birds.
In: Science Advances.
Bd. 6
(2020)
Heft 49
.
- eabb6095.
ISSN 2375-2548
DOI: https://doi.org/10.1126/sciadv.abb6095
Abstract
Human-driven extinctions can affect our understanding of evolution, through the nonrandom loss of certain types of species. Here, we explore how knowledge of a major evolutionary transition-the evolution of flightlessness in birds-is biased by anthropogenic extinctions. Adding data on 581 known anthropogenic extinctions to the extant global avifauna increases the number of species by 5%, but quadruples the number of flightless species. The evolution of flightlessness in birds is a widespread phenomenon, occurring in more than half of bird orders and evolving independently at least 150 times. Thus, we estimate that this evolutionary transition occurred at a rate four times higher than it would appear based solely on extant species. Our analysis of preanthropogenic avian diversity shows how anthropogenic effects can conceal the frequency of major evolutionary transitions in life forms and highlights the fact that macroevolutionary studies with only small amounts of missing data can still be highly biased.