Chemicals Prove Harmful to Bees … Again

Researchers find that fungicides and miticides meant to protect bees from parasites might actually impair their immune systems’ ability to ward off the diseases on their own.

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by Dani Yokhna
According to researchers at the University of Maryland and the USDA, chemicals used on agricultural crops can impair bees' ability to fight off parasites. Photo by Rachael Brugger (HobbyFarms.com)
Photo by Rachael Brugger

Commercial Honey bees used to pollinate crops are exposed to a wide variety of agricultural chemicals, including common fungicides, which impair the bees’ ability to fight off potentially lethal parasites, according to a new study by researchers at the University of Maryland and the USDA.

The study, published July 24, 2013, in the online journal PLOS ONE, is the first analysis of real-world conditions encountered by Honey bees as their hives pollinate a range of crops, from apples to watermelons.

The researchers collected pollen from Honey-bee hives in fields from Delaware to Maine and analyzed the samples to find out which flowering plants were the bees’ main pollen sources and what agricultural chemicals were commingled with the pollen. The researchers fed the pesticide-laden pollen samples to healthy bees, which were then tested for their ability to resist infection from Nosema ceranae, a parasite of adult Honey bees that has been linked to the lethal phenomenon known as colony collapse disorder, in which entire Honey bee colonies suddenly die.

On average, the pollen samples contained nine different agricultural chemicals, including fungicides, insecticides, herbicides and miticides. Sublethal levels of multiple agricultural chemicals were present in every sample, with one sample containing 21 different pesticides. Pesticides found most frequently in the bees’ pollen were the fungicide chlorothalonil, used on apples and other crops, and the insecticide fluvalinate, used by beekeepers to control Varroa mites, common Honey bee pests.

In the study’s most surprising find, bees that were fed the collected pollen samples containing chlorothonatil were nearly three times more likely to be infected by Nosema than bees that were not exposed to these chemicals, says Jeff Pettis, research leader of the USDA’s Bee Research Laboratory and the study’s lead author. The miticides used to control Varroa mites also harmed the bees’ ability to withstand parasitic infection.

Beekeepers know they’re making a trade-off when they use miticides, says University of Maryland researcher Dennis vanEngelsdorp, the study’s senior author. The chemicals compromise bees’ immune systems, but the damage is less than it would be if mites were left unchecked. But the study’s finding that common fungicides can be harmful at real world dosages is new and points to a gap in existing regulations, he says.

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“We don’t think of fungicides as having a negative effect on bees because they’re not designed to kill insects,” vanEngelsdorp says. Federal regulations restrict the use of insecticides while pollinating insects are foraging, he says, but there are no such restrictions on fungicides. “You’ll often see fungicide applications going on while bees are foraging on the crop. This finding suggests that we have to reconsider that policy.”

In an unexpected finding, most of the crops the bees were pollinating appeared to provide their hives with little nourishment. Honey bees gather pollen to take to their hives and feed their young, but when the researchers collected pollen from bees foraging on native North American crops, such as blueberries and watermelon, they found the pollen came from other flowering plants in the area—not from the crops. This is probably because Honey bees, which evolved in the Old World, are not efficient at collecting pollen from New World crops, even though they have the ability to do so.

The study’s findings are not directly related to CCD; however, the researchers say the results shed light on the many factors that are interacting to stress honey bee populations.

 

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