Bees pollinate 71 of the 100 crop species that provide 90% of food worldwide. They also pollinate wild plants, helping sustain biodiversity and the beauty of the natural world.
But climate change, pesticides and parasites are taking a terrible toll on bees, and they need protecting, said European beekeepers, who held their annual congress in Quimper, western France, this week.
The congress, which said some European beekeepers were suffering “significant mortalities and catastrophic harvests due to difficult climatic conditions,” was an opportunity for beekeepers and scientists to respond to the major concerns.
The European Union, the world’s second-largest importer of honey, currently produces just 60% of what it consumes.
French beekeepers, for example, expect to harvest between 12,000 and 14,000 metric tons of honey this year, far lower than the 30,000 tons they harvested in the 1990s, according to the National Union of French Beekeepers (UNAF).
“I’ve been fighting for bees for 30 years, but if I had to choose now, I don’t know if I’d become a beekeeper,” said UNAF spokesman Henri Clement, who has 200 hives in the mountainous Cevennes region in southeastern France.
Clement is 62 and not far off retiring.
“But it’s not much fun for young people who want to take up the profession,” he said.
Many of the topics buzzing around the congress were evidence of this — pesticides, climate change, and Asian hornets, parasitic varroa mites and hive beetles, all invasive alien species in Europe.
Challenges includes rain, drought
With climate change, “the bigger issue is just the erratic weather and rain patterns, drought and things like that,” said U.S. entomologist Jeff Pettis, president of Apimondia, an international federation of beekeeping associations in 110 countries.
“In certain places, the plants had been used to a certain temperature. And now it goes up, and you have a hot dry summer, and there are no flowers,” Pettis told AFP.
No flowers means no pollen, which means bees dying of hunger.
Climate scientists say human-induced global heating is intensifying extreme weather events such as flooding, and heatwaves that exacerbate wildfires.
“The fires seem to be a big issue,” Pettis said. “They come sporadically, and we lose hives directly from flooding and fires.
Pettis, a former scientist at the U.S. Department of Agriculture, published a study in 2016 on the quality of pollen produced by goldenrod, a hardy perennial also known as solidago that produces a myriad of small yellow daisy-like flowers.
The study showed that the more carbon dioxide — a greenhouse gas — that accumulates in the atmosphere, the lower the amount of protein in goldenrod pollen.
North America bees are dependent on nourishment from goldenrod pollen to get through the winter, Pettis said.
“Getting inferior food … should affect wintering. It could happen with other pollen sources. We don’t know.”
As in France, 30% to 40% of hives in the United States are dying every winter, Pettis said, decimated by varroa mites, pesticides and the destruction of wild spaces where wild plants grow
“Today, there are even American startups that are developing drones to pollinize plants in the place of bees. It’s utterly appalling,” said Clement.
Toxic threat
Toxic pesticides are another factor decimating bee colonies and other pollinating insects.
French molecular biophysics scientist Jean-Marc Bonmatin said parasites such as varroa were “boosted by the presence of neonicotinide pesticides, which directly poison pollinators.”
Neonicotinoids, chemically similar to nicotine, are systemic pesticides.
Unlike contact pesticides, which remain on the surface of the treated leaves, systemic pesticides are taken up by the plant and transported to its leaves, flowers, roots and stems, as well as to its pollen and nectar.
These toxic substances can remain in the soil for between five and 30 years, Bonmatin said.
The EU restricted the use of three neonicotinoids — but not all — in 2013 and banned them outright in 2018.
But since 2013, several EU states have repeatedly granted “emergency authorizations” to use noxious insecticides on major crops.
He said open-source software called Toxibee was being launched soon to help farmers protect bees by identifying the least toxic molecules to use on their crops.
“Before they spray the crops with pesticides, they can try to limit their noxious effect,” he said. “Because what kills bees will one day damage people’s health, too.”
Pettis strove, however, to remain upbeat, pointing to some of the ways people can help bees.
“[We should] diversify agriculture and try not [to] be driven by chemically dependent agriculture, support organic and more sustainable farming.”
He also stressed the incredible resistance of some bee species, helped by factors in the natural world.
He cited the example of a black bee found on the Ile de Groix in Brittany, which has survived varroa attacks without beekeepers treating them for mites or giving them supplementary feeding.
“We think the bees are dependent on us, but in reality, they survive pretty well even without us,” he said. “And you still have the beauty of the bees. It’s such a good thing to work with bees.”
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