More research shows animals can and do adapt to urban environments:
Whitehead’s work on killifish is one of the signature triumphs of urban evolution, an emergent discipline devoted to figuring out why certain animals, plants, and microbes survive or even flourish no matter how much we transform their habitats. Humans rarely give much thought to the creatures that flit or crawl or skitter about our apartment blocks and strip malls, in part because we tend to dismiss them as either ordinary or less than fully wild. But we should instead marvel at how these organisms have managed to keep pace with our relentless drive to build and cluster in cities. Rather than wilt away as Homo sapiens have spread forth bearing concrete, bitumen, and steel, a select number of species have developed elegant adaptations to cope with the peculiarities of urban life: more rigid cellular membranes that may ward off heat, digestive systems that can absorb sugary garbage, altered limbs and torsos that enhance agility atop asphalt or in runoff-fattened streams.
Whitehead and his colleagues, many of whom are at the dawn of their careers, are now beginning to pinpoint the subtle genetic changes that underlie these novel traits. Their sleuthing promises to solve a conundrum that has vexed biologists for 160 years, and in the process reveal how we might be able to manipulate evolution to make the world’s cities—projected to be home to two-thirds of humanity by 2050—resilient enough to endure the catastrophes that are coming their way…
Like so many of their scientific peers, urban evolution researchers are grappling with the question of how their work can help us make this new environmental reality a bit less grim. On the surface, at least, their inquiries can seem largely aimed at addressing theoretical matters—notably the issue of whether the evolution of complex organisms is a replicable phenomenon, like any ordinary chemical reaction. Cities provide an accidental global network of ad hoc laboratories to test this question: Office towers the world over are fabricated from the same glass panels and steel beams, night skies are illuminated by the same artificial lights, auditory landscapes thrum with the noise of the same cars, food waste comes from the same KFCs and Subways.
This urban sameness is allowing researchers to determine whether isolated populations of the same species develop similar adaptations when placed in parallel environments. “What cities offer us is this amazingly large-scale, worldwide experiment in evolution, where you’ve got thousands of life-forms that are experiencing the same factors,” says Marc Johnson, who heads an evolutionary ecology lab at the University of Toronto Mississauga.
Perhaps sociologist Robert Park was more correct than he knew by suggesting the city was a laboratory. Furthermore, Park and other sociologists like Herbert Spencer borrowed concepts from biology and applied them to social processes and communities.
This research could also help address two other issues (in addition to climate change as discussed in the article):
- What really is “nature” in cities? Adding parks and trees is not really grappling with what nature is nor with how cities and their residents see nature around them. And what is the ideal end goal of people-nature interaction in big cities?
- Urbanization is not just about harm to the environment but it is also about long-term changes. Humans have been interacting with and affecting nature for a long time but the specific process of urbanization in roughly the last 150 years has been different.