Texas A&M University researchers say the fungicide iprodione, when used alone or in combination with other common fungicides, leads to a significant reduction in the 10-day survival rate of honey bees (Apis mellifera) when they are exposed at rates usually used on the almond crops.
“Given that these fungicides may be applied when honey bees are present in almond orchards, our findings suggest that bees may face significant danger from chemical applications even when responsibly applied,” says Juliana Rangel, Texas A&M assistant professor of apiculture.
Rangel and colleagues report in the journal Economic Entomology that they tested the effects of fungicides on honey bees through a wind-tunnel experiment, in which groups of honey bees were exposed to various dosage levels and combinations of fungicides, sprayed and carried through the wind tunnel at speeds simulating aerial crop dusting.
They were then removed to separate habitats and monitored daily over a 10-day period. They tested an iprodione fungicide on its own and in combination with boscalid, pyraclostrobin, and azoxytrobin. The trials were repeated three times in September, October, and November 2015.
The results showed a significant increase in mortality rate among honey bees exposed to the fungicides compared to a control group. In two of the three trials, bees exposed to the recommended concentration of iprodione died at two to three times the rate of the unexposed bees after 10 days. The effect was even more pronounced when iprodione was combined with the other fungicides.
The exact reasons for fungicides’ negative effect on honey bees is not well understood, the researchers note, though previous research has shown that some fungicides have heightened potential to persist in residual amounts in honey bee wax in hives.
The Almond Board of California says the industry in California alone produces about 80% of almonds consumed worldwide, and growers rely almost entirely on managed honey bees for pollination.
“Our results may help to encourage discussions on altering spraying regimes or perhaps finding different ways to apply chemicals in such a manner that takes the biology and behavior of pollinators into account,” says lead author Adrian Fisher, a doctoral student in Rangel’s lab at Texas A&M.