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Scientists prove moths’ survival driven by changes in pollution and camouflage

Researchers at the University of Exeter revisited and confirmed one of the most famous textbook examples of evolution in action.

Scientists have revisited and confirmed one of the most famous textbook examples of evolution in action.

They showed that differences in the survival of pale and dark forms of the peppered moth, Biston betularia, are explained by how well camouflaged the moths are to birds in clean and polluted woodland.

“Industrial melanism” – the prevalence of darker varieties of animals in polluted areas – and the peppered moth provided a crucial early example supporting Charles Darwin’s theory of evolution by natural selection.

It has been a battleground between evolutionary biologists and creationists for decades.

The common pale form of the moth is camouflaged against lichen growing on tree bark.

During the Industrial Revolution, when pollution killed lichen and bark was darkened by soot, a darker-winged form emerged in the UK.

Later, clean air legislation reduced soot levels and allowed lichen to recover, causing a resurgence of pale peppered moths.

The example has been well supported by many studies, but nobody had ever tested how well camouflaged the moths were to the vision of their key predators and how their camouflage directly influenced survival.

Now scientists at the University of Exeter have shown that birds, such as sparrows, great tits, blue tits, robins and blackbirds, see pale moths as more camouflaged against lichen-covered trees than dark moths.

It means that pale moths are less likely to be eaten in unpolluted woodland, giving them an evolutionary advantage.

“This is one of the most iconic examples of evolution, used in biology textbooks around the world, yet fiercely attacked by creationists seeking to discredit evolution,” said Professor Martin Stevens, of the University of Exeter.

“Remarkably, no previous study has quantified the camouflage of peppered moths or related this to survival against predators in controlled experiments.

“Using digital image analysis to simulate bird vision and field experiments in British woodland, we compared how easily birds can see pale and darker moths, and ultimately determine their predation risk.

“Our findings confirm the conventional story put forward by early evolutionary biologists – that changes in the frequency of dark and pale peppered moths were driven by changes in pollution and camouflage.”

An artificial moth (hidden centre right on tree bark) used in a field experiment by scientists who have revisited and confirmed one of the most famous textbook examples of evolution in action (Olivia Walton/University of Exeter/PA)

Most birds can perceive ultraviolet light, which is invisible to human eyes, and see a greater range of colours than humans.

The Exeter scientists analysed how well pale and dark moths matched lichen-covered and plain tree bark, as seen by birds.

To do this, they used museum specimens including some from the collections of Bernard Kettlewell, who carried out famous research on the evolution of the species in the 1950s.

The researchers also created artificial moths, baited them with food and observed predation rates in woodland, mostly in Cornwall.

“Through a bird’s eyes, the pale peppered moths more closely match lichen-covered bark, whereas darker individuals more closely match plain bark,” said first author Olivia Walton, who conducted the research as part of her master’s degree at Exeter.

“Crucially, this translates into a strong survival advantage; the lighter moths are much less likely to be seen by wild birds when on lichen-covered backgrounds, in comparison to dark moths.”

In the experiment using artificial moths, lighter models had a 21% higher chance of not being eaten by birds.

The paper, Avian Vision Models And Field Experiments Determine The Survival Value Of Peppered Moth Camouflage, is published in the journal Communications Biology.

Press Association

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