Carnivore species are more at risk of extinction due to their own intrinsic biological attributes than from an increasing human population with whom they share their space, says a new study published in PLoS Biology.
Researchers looking at all 280 carnivore species around the world estimated the risk of their extinction by 2030 based on a variety of different threats. They found that while a high human population density is associated with a high extinction risk, its importance fell as biological traits were accounted for.
Four traits in particular were associated with high extinction risk in carnivores: a small geographic distribution, low population density, high trophic level (their position on the food chain), and long gestation period.
“When species face severe external threats, their biology becomes much more crucial,” says Dr Marcel Cardillo at the Imperial College of Science.
The researchers conclude that there is no room for complacency about the security of species simply because they are not currently considered globally threatened. “There is a strong case to be made for pre-emptive conservation of species – that live in regions of rapid human population growth and have a biology predisposing them to decline,” they write. They highlight in particular the threat to civets and genets, even though they are currently considered relatively safe.
They suggest pre-emptive action including the establishment of population monitoring programs, or listing species under national species protection laws on the basis of potential future susceptibility.
“We need to keep an eye on species before they start declining to extinction,” said Dr Cardillo. “What we think is safe now may soon go through a rapid decline. We shouldn’t be too confident about the species around us now. This is a preliminary study, the first to examine a global level of extinction risk at the species level and at the same time consider biology’s intrinsic influence. Now we intend to extend our methods to all 4,500 terrestrial mammals, to see if there are general predictors of extinction risk and that these rules apply between orders of animals.”