According to the first study to evaluate these implications across Europe, poisoning caused by preying on or scavenging animals shot by hunters using lead ammunition has left many raptors—or birds of prey—far smaller than they should be.
When birds such as eagles and Red Kites scavenge carcasses or consume injured animals with toxic lead pieces embedded in their bodies, they can become poisoned and die slowly and painfully. Behavior and physiology have been demonstrated to be altered by smaller doses.
Now, researchers from the University of Cambridge have utilized data on lead levels in the livers of over 3,000 raptors discovered dead in more than a dozen nations to estimate the extent to which lead ammunition poisoning has harmed Europe’s raptor populations.
Researchers estimate that, for ten raptor species, poisoning from lead ammunition alone has resulted in an absence of around 55,000 adult birds from European skies.
Worst affected are species like eagles that are naturally long-lived, rear few young per year and breed later in life. However, even populations of species familiar to bird-watchers across countries like the UK, such as the Common Buzzard and Red Kite, would be significantly bigger were it not for lead ammunition.
For example, the study suggests that Europe’s White-tailed Eagle population is 14% smaller than it would have been without more than a century of exposure to lethal levels of lead in some of its food.
This is closely followed by the Golden Eagle and Griffon Vulture with populations 13% and 12% smaller than they would otherwise have been. Northern Goshawk numbers are 6% smaller, and both Red Kite and Western Marsh Harrier populations are 3% smaller.
Common Buzzard populations are 1.5% smaller, but this equates to almost 22,000 fewer adults of this widespread species, say the researchers.
They estimate that the overall European population of ten raptor species is at least 6% smaller than it should be, solely as a result of poisoning from lead ammunition.
Cambridge researchers worked with the Leibniz Institute for Zoo and Wildlife Research (Leibniz-IZW) and the findings are published today in the journal Science of the Total Environment.
The scientists say that a range of alternatives to lead shotgun cartridges and rifle bullets are widely available to hunters and work well. However, efforts by UK hunters’ organizations to instigate voluntary bans on lead shot in hunting have had almost no effect.
Research by the same Cambridge authors published just last month shows over 99% of pheasants killed in the UK are still shot with lead, despite hunting groups urging members to switch to non-toxic gunshot in 2020, with the aim of phasing out lead use by 2025.
“The continued blanket use of lead ammunition means that hunting as a pastime simply cannot be considered sustainable unless things change,” said lead author Prof Rhys Green, a conservation scientist at the University of Cambridge and RSPB.
“Unfortunately, efforts to encourage voluntary shifts away from lead shot have been completely ineffective so far,” he said.
“The kinds of reductions in raptor populations suggested by our study would be considered worthy of strong action, including legislation, if caused by habitat destruction or deliberate poisoning.”
Currently, only two European nations—Denmark and the Netherlands—have banned lead shot. Denmark plans to follow this up with a ban on lead rifle bullets. Both the European Union and the UK are considering legal bans on all lead ammunition due to effects on wildlife and the health of human consumers of game meat, but many hunting groups oppose this, according to researchers.
Some raptors are poisoned when they scavenge from dead animals killed with lead ammunition. This can be a whole carcass lost or abandoned by hunters, or—for example—the guts of a hunted deer, discarded to reduce carrying weight.
As well as vultures, which rely on scavenging, many other raptors also scavenge when the opportunity arises, including eagles, buzzards and kites. Many dead pheasants at UK roadsides carry lead shot and fragments in their bodies and are scavenged by buzzards and kites.
Other species, such as falcons and goshawks, are exposed through preying upon live animals with lead embedded in their bodies from being shot and injured but not killed. X-ray studies of wild ducks in the UK have shown that about a quarter of live birds have shot in their bodies. Injured ducks or pigeons are less likely to be able to evade predatory birds.
“It’s taken decades for researchers from across Europe to amass sufficient data to enable us to calculate the impacts of lead poisoning on raptor populations,” said study co-author Prof Debbie Pain from the University of Cambridge.
“We can now see just how substantial population impacts can be for some of our most charismatic and vulnerable species—species that are protected by EU Regulation and the UK Wildlife & Countryside Act.”
“The avoidable suffering and death of numerous individual raptors from lead poisoning should be sufficient to require the use of non-toxic alternatives. These population-level impacts make this both doubly important and urgent.”
For the latest study, researchers used population modeling to calculate how big Europe’s raptor populations would have been were it not for the destructive impact of a single “additional mortality factor”: lead poisoning from ammunition.
They took data gathered since the 1970s from the livers of thousands of dead raptors in 13 nations and tracked the relationship with “hunter density”: average numbers of hunters per square kilometer in each country, using data from the European Federation for Hunting and Conservation.
Unsurprisingly perhaps, places with a higher density of hunters had more poisoned raptors. Scientists used this relationship to predict rates of poisoning in countries without data from bird livers, but where “hunter density” is known. Their results indicate that a country with no hunters using lead ammunition would have virtually no lead-poisoned raptors.
Scientists say their estimates are conservative, not least as data on poisoned raptors is limited and hugely difficult to gather. For many European raptor species, including some of the rarest ones, there were insufficient data to estimate how great the risk is.
This article by The University of Cambridge was first published by Phys.org on 16 March 2022. Lead Image: White-tailed eagle Haliaeetus albicilla. Credit: Ian McCarthy/RSPB.
What you can do
Support ‘Fighting for Wildlife’ by donating as little as $1 – It only takes a minute. Thank you.
Fighting for Wildlife supports approved wildlife conservation organizations, which spend at least 80 percent of the money they raise on actual fieldwork, rather than administration and fundraising. When making a donation you can designate for which type of initiative it should be used – wildlife, oceans, forests or climate.