A new study from the University of Otago has revealed that New Zealand’s native stoneflies have changed color due to human-driven environmental changes, showcasing a clear example of rapid animal evolution.
New research from the University of Otago has unveiled a striking example of rapid animal evolution driven by human activities. The study, published in the journal Science, demonstrates that New Zealand’s native stoneflies have altered their coloration as a result of deforestation caused by human activity.
The study provides compelling evidence of how human-driven environmental changes can lead to evolutionary adaptations in wildlife.
“In natural forested regions, a native species has evolved ‘warning’ colors that mimic those of a poisonous forest species, to trick predators into thinking they are poisonous too,” co-author Jon Waters, a professor of zoology at the University of Otago, said in a news release. “But the removal of forests since humans arrived has removed the poisonous species. As a result, in deforested regions the mimicking species has abandoned this strategy – as there is nothing to mimic – instead evolving into a different color.”
This discovery is particularly noteworthy as it offers arguably the world’s most clear-cut case of animal evolution in response to human-induced environmental changes.
The phenomenon is reminiscent of the well-known example of the peppered moth in the UK, which changed color in response to industrial pollution in the 1800s. However, Waters points out that even the peppered moth case has been considered controversial in the scientific community.
Co-author Graham McCulloch, a research fellow in evolutionary biology at the University of Otago, highlighted the broader implications of the study.
“Humans have disrupted ecological interactions between species that evolved over millions of years, but some of our native species are resilient enough to overcome this,” McCulloch said in the news release. “This study is important because it shows that, at least for some of our native species, there is the possibility of adapting to the environmental changes caused by humans, even when the change is rapid.”
The research also revealed that independent populations of stoneflies have undergone similar color changes in response to deforestation across different parts of their range.
“There have been similar shifts independently in different parts of the species’ range — showing that evolution can be a predictable process,” McCulloch added.
The findings underscore the significant impact human activities can have on natural ecosystems and the adaptive capacity of wildlife. As humanity continues to alter landscapes and ecosystems, this study serves as a poignant reminder of the profound and often rapid changes that can occur in the natural world.