Camouflage or caution? How anti-predator strategies have evolved
Predators and the environment determine why some animals use camouflage to avoid being eaten, while others use bright colours to warn them off, new research reveals.
Published today in the journal Science, the findings help explain the evolution and global distribution of the most common colour strategies used by insects to avoid predators.
The global study took place across six continents and involved over 50 scientific collaborators.
Using the same experiment, researchers deployed more than 15,000 artificial prey with three different colours to investigate which strategy works best to deter predators: a classic warning pattern of orange and black, a dull brown that blends in, and an unusual bright blue and black.
The Merops apiaster bird eating the Aglais io moth. Image by Martin Labuta
The study’s lead author, University of Melbourne’s Dr Iliana Medina Guzman, said the answer to why some animals use camouflage over warning colours to deter predators turned out to be more complex than expected.
“Our findings showed there is no single best colour strategy to deter predators, but that context is critical,” Dr Medina Guzman, from the School of BioSciences, said.
“The different characteristics of the predator and prey communities, as well as habitat in that part of the globe, heavily decide which strategy performs better in each place.
“This makes sense when we see animals employing so many varying camouflage and warning colour strategies as defence systems all over the world.”
The Pteruthius aeralatus bird. Image by Tomas Albrecht
Predators had the biggest influence on which colour strategy was most successful for prey, the study revealed.
“In environments where predators are competing intensely for food, they are more likely to risk attacking prey that might be dangerous or distasteful. Hence, we saw that camouflage worked best in areas with lots of predation,” Dr Medina Guzman said.
“Whereas, in places where cryptic prey (insects who use camouflage) are abundant, hiding becomes less effective, as predators are better at looking for those types of animals.”
The findings help scientists understand why some species, such as the cryptic bogong moth or the brightly coloured harlequin bug, have evolved their strategies against predators.
A bee-eater bird eating a nymphalid butterfly. Image by Mike Rowe
Dr William Allen, an evolutionary ecologist at Swansea University, in the UK, was the senior author on the research.
“For a long time, scientists have wondered why some animals use one defence strategy over the other and our study sheds important information on how animal communities and the environment influence this,” Dr Allen said.
“We hope our findings can help build better understanding of the evolution and global distribution of the most common antipredator colour strategies in animals.”
The research titled Global selection on insect antipredator coloration is described in Science.
Comentarios