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Fast evolution affects everyone, everywhere

The iconic Darwin’s Finches on the Galapagos Islands are a classic example of adaptive radiation. As the number of permanent residents and tourists on the Galapagos increases, the finches are interacting with humans more and more, affecting their evolution.
Published: 5 December 2016

Rapid evolution of other species happens all around us all the time – and many of the most extreme examples are associated with human influences.

In a theme issue of the scientific journal Philosophical Transactions of the Royal Society B, researchers from 山ǿ have helped pull together the latest research on this phenomenon. The theme issue shows how humans affect the evolution of other species, and how those evolutionary changes can influence human societies. In many cases, these effects play out over only a few years to decades -- more quickly than biologists traditionally thought possible.  

“Evolution is occurring all around us all the time, and it is influencing our environment, our health, and our overall well-being” says Andrew Hendry, professor in the Redpath Museum and Department of Biology at 山ǿ, and one of the editors of the theme issue. 

When humans are involved, selection pressures on a species often become very strong, leading to fast evolution. 

Consider three examples:

Commercial fishing. When fishing pressure is high, the fish evolve to reproduce when they are younger and smaller, and thus tend to have fewer, smaller offspring. This evolutionary change can, in turn, reduce fisheries yields and the sustainability. 

Invasive species.  The movement of species to new places in the world instigates evolution in those invasive species, which increases their rate of spread and impact on native species. Those native species can then sometimes evolve in response, potentially arresting the invader’s spread and mitigating its impact. 

Urbanization. The development of cities dramatically changes many aspects of the environment and, hence, can instigate evolution in a variety of species. As examples, plants evolve decreased seed dispersal to compensate for the expansion of uninhabitable pavement, animals evolve resistance to industrial and residential chemicals, and bacteria evolve resistance to antibiotics.

The collection of studies in the theme issue provides a rallying point for broader discussions of how human influences shape evolution and how that evolution, in turn, influences species traits, biodiversity, and “ecosystem services” – the benefits that nature provides to humans, such as food, water and clean air. 

“Evolution will fundamentally alter how species and ecosystems respond to environmental change,” Hendry says. “Evolution therefore needs to be an integral part of our assessments of biodiversity and ecosystem services.” 

To read “Human influences on evolution, and the ecological and societal consequencesby Kiyoko M. Gotanda, Andrew P. Hendry, and Erik Svensson in Philosophical Transactions of the Royal Society B:Ǿ.ǰ/10.17863/䴡.6418

The research was funded by a Discovery Grant from the Natural Sciences and Engineering Research Council of Canada.

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