The recent uproar about seats on a British Airways flight crawling with bedbugs is only one of the unintended consequences that urbanization worldwide has on evolution, say Marc Johnson, an associate professor of biology at the University of Toronto Mississauga, and Jason Munshi-South, who is an associate professor of biological sciences at Fordham University.
"As we build cities, we have little understanding of how they are influencing organisms that live there," says Johnson, who is also director of the University of Toronto's Centre for Urban Environments (@CUE_UofT). "It's good news that some organisms are able to adapt, such as native species that have important ecological functions in the environment. But it can also be bad news that the ability of some of these organisms to adapt to our cities might increase the transmission of disease. Bedbugs, for example, were scarce two decades ago, but they've adapted to the insecticides used to keep them at bay and have exploded in abundance worldwide."
In the first study to take a comprehensive look at the way urbanization is affecting evolution, Johnson and Munshi-South reviewed all existing research studies about urbanization and evolution and synthesized the results.
"Traditionally, we've thought about evolution as a long-term process driven by environmental pressures and the interactions between species. But now there is a new driver that is rapidly changing many other species, which is how they interact with humans and our built environment", says Munshi-South. "Humans and our cities are one of the most dominant forces of contemporary evolution now."
The study raises questions about which native species can persist during urbanization and whether those that adapt will influence the health of ecosystems and human beings. Loss of habitat and urban barriers (roads, buildings, etc.) pose challenges to all kinds of species and some may adapt in undesirable ways. The researchers assessed various means of genetic adaptation, such as mutation, the movement of genes through dispersal, neutral evolution and adaptive evolution through Darwinian natural selection, concluding that the urban environment has an impact on each of these mechanisms of evolution.
Their work touches on mammals, plants, birds, amphibians, reptiles, insects and viruses, identifying evolutionary impacts on species as diverse as the common blackbird in Europe to white clovers and white-footed mice in North America. Populations of white-footed mice in New York City, for example, became differentiated from each other after urbanization, due to their isolation in various parks.
"We've created a novel ecosystem that no organism has ever seen before," said Johnson, noting that their study, published Nov. 3 in the journal, Science, is a "wake-up call for the public, governments and other scientists."
He and Munshi-South suggest that we need to think carefully about how we're altering our environment in unintended ways when we build cities, influencing the evolution of species that may, in turn, influence our lives. A number of organisms, such as rats, urban lizards, cockroaches, pigeons and bedbugs, have evolved to depend on humans.
There are now mosquitoes, for example, that have evolved to live in the London Underground stations and adapted so that they no longer need to feed on blood to produce eggs. They also have no need to become dormant during the winter. Unfortunately, these mosquitoes can carry a number of diseases and are now found in New York City, Chicago and Los Angeles, too. Our healthcare systems may be required to adapt in response.
Johnson and Munshi-South suggest that when we're planning cities, we need to think about the impact our designs have on native species and whether we can design them to "be kinder to ourselves and the environment," considering ways to conserve native species and mitigate the prevalence of disease-carrying pests.
Given that species are evolving so rapidly in response to urbanization, the outdoors also becomes a classroom that offers an opportunity to see examples of evolution firsthand. Urban evolution can be used as a tool to educate city dwellers and others about the reality and importance of evolutionary biology.
"People who don't believe in evolution need not go further than their backyards to see evidence of it," Johnson said.
Director of Communications, Fordham University
Associate Director, Communications, UTM
About the University of Toronto Mississauga
Founded in 1967 and celebrating its 50th anniversary this year, the University of Toronto Mississauga (UTM) is one of three campuses of the University of Toronto - Canada's largest and most prestigious research-intensive university. U of T Mississauga offers highly sought-after degree options, transformative research and strong ties to its local community. The 225-acre campus is located along the Credit River in the heart of Mississauga - Canada's sixth largest city and part of the Greater Toronto Area. Home to approximately 15,000 undergraduate and graduate students, and over 1,000 faculty and staff, the campus has 17 academic departments, and offers 156 programs in 92 areas of study.
About Fordham University
Founded in 1841, Fordham is the Jesuit University of New York, offering exceptional education distinguished by the Jesuit tradition across nine schools. Fordham awards baccalaureate, graduate, and professional degrees to approximately 15,000 students from Fordham College at Rose Hill, Fordham College at Lincoln Center, the Gabelli School of Business (undergraduate and graduate), the School of Professional and Continuing Studies, the Graduate Schools of Arts and Sciences, Education, Religion and Religious Education, and Social Service, and the School of Law. The University has residential campuses in the Bronx and Manhattan, a campus in West Harrison, N.Y., the Louis Calder Center Biological Field Station in Armonk, N.Y., and the London Centre in the United Kingdom.