A United Nations sponsored scientific mega-report warns that too many species of pollinators are nearing extinction. These are bees, butterflies, even some birds and 20,000 other species that are crucial to the world’s food supply.
Many species of wild bees, butterflies and other critters that pollinate plants are shrinking toward extinction, and the world needs to do something about it before our food supply suffers, a new United Nations scientific mega-report warns.
The 20,000 or so species of pollinators are key to hundreds of billions of dollars’ worth of crops each year—from fruits and vegetables to coffee and chocolate. Yet 2 out of 5 species of invertebrate pollinators, such as bees and butterflies, are on the path toward extinction, said the first-of-its-kind report. Pollinators with backbones, such as hummingbirds and bats, are only slightly better off, with 1 in 6 species facing extinction.
“We are in a period of decline and there are going to be increasing consequences,” said report lead author Simon Potts, director of the Centre for Agri-Environmental Research at the University of Reading in England.
And it’s not just honeybees. In some aspects they’re doing better than many of their wild counterparts, like the bumblebee, despite dramatic long-term declines in the United States and a mysterious disorder that has waned.
The trouble is the report can’t point to a single villain. Among the culprits: the way farming has changed so there’s not enough diversity and wild flowers for pollinators to use as food; pesticide use, including a controversial one, neonicotinoid, that attacks the nervous system; habitat loss to cities; disease, parasites and pathogens; and global warming.
The report is the result of more than two years of work by scientists across the globe who got together under several different U.N. agencies to come up with an assessment of Earth’s biodiversity, starting with the pollinators. It’s an effort similar to what the United Nations has done with global warming, putting together an encyclopedic report to tell world leaders what’s happening and give them options for what can be done.
The report, which draws from many scientific studies but no new research, was approved by a congress of 124 nations meeting in Kuala Lumpur on Friday.
“The variety and multiplicity of threats to pollinators and pollination generate risks to people and livelihoods,” the report stated. “These risks are largely driven by changes in land cover and agricultural management systems, including pesticide use.”
But these are problems that can be fixed, and unlike global warming, the solutions don’t require countries to agree on global action—they can act locally, said Robert Watson, a top British ecological scientist and vice chairman of the scientific panel. The solutions offered mostly involve changing the way land and farming is managed.
“There are relatively simple, relatively inexpensive mechanisms for turning the trend around for native pollinators,” said David Inouye of the University of Maryland, a co-author of a couple chapters in the report.
One of the biggest problems, especially in the United States, is that giant swaths of farmland are devoted to just one crop, and wildflowers are disappearing, Potts and others said. Wild pollinators especially do well on grasslands, which are usually more than just grass, and 97 percent of Europe’s grasslands have disappeared since World War II, Potts said.
England now pays farmers to plant wildflowers for bees in hedge rows, Watson said.
There are both general and specific problems with some pesticide use, according to the report.
“Pesticides, particularly insecticides, have been demonstrated to have a broad range of lethal and sub-lethal effects on pollinators in controlled experimental conditions,” the report said. But it noted more study is needed on the effects on pollinators in the wild. Herbicides kill off weeds, which are useful for wild pollinators, the report added.
The report highlighted recent research that said the widely used insecticide neonicotinoid reduces wild bees’ chances for survival and reproduction, but the evidence of effects on honeybees is conflicting.
In a statement, Christian Maus, global pollinator safety manager for Bayer, which makes neonicotinoids, said: “The report confirms the overwhelming majority of the scientific opinion regarding pollinator health—that this is a complex issue affected by many factors. Protecting pollinators and providing a growing population with safe, abundant food will require collaboration.”
Potts said global warming is “very clearly a real future risk” because pollinators and their plants may not be at the same place at the same time. England has seen one-quarter of its bumblebee species threatened, and those are the type of bees most sensitive to climate change, he said.
England has lost two species of wild bumblebees to extinction and the U.S. has lost one, Inouye said.
The story of honeybees is a bit mixed. Globally over the last 50 years, the number of managed honeybee hives—ones where humans keep them either as a hobbyists or as professional pollinators—has increased, but it has dropped in North America and Europe, where there is the most data, the report said.
Potts said the number of managed hives in the United States dropped from 5.5 million in 1961 and dropped to a low of 2.5 million in 2012, when colony collapse disorder was causing increased worries. The number of hives is now back up slightly, to 2.7 million.
Dennis vanEngelsdorp, a University of Maryland bee expert who wasn’t part of the report, praised it for looking at the big picture beyond honeybees.
Doing something is crucial, he said.
“Everything falls apart if you take pollinators out of the game,” vanEngelsdorp said. “If we want to say we can feed the world in 2050, pollinators are going to be part of that.”