Organosilicone Adjuvant, Sylgard 309, Increases the Susceptibility of Honey Bee Larvae to Black Queen Cell Virus

CATCH THE BUZZ    By Alan Harman    January 19, 2017

Healthy bee larva developing on day six. (Penn State photo by Julia Fine)A chemical that is thought to be safe and widely used on crops such as almonds, wine grapes and tree fruits to boost the performance of pesticides, makes honey bee larvae significantly more susceptible to a deadly virus.

Researchers at Penn State and the U.S. Department of Agriculture found that in the lab, the commonly used organosilicone adjuvant, Sylgard 309, negatively impacts the health of honey bee larvae by increasing their susceptibility to a common bee pathogen, the Black Queen Cell Virus.

“These results mirror the symptoms observed in hives following almond pollination, when bees are exposed to organosilicone adjuvant residues in pollen, and viral pathogen prevalence is known to increase,” says Julia Fine, graduate student in entomology at Penn State.

  “In recent years, beekeepers have reported missing, dead and dying brood in their hives following almond pollination, and exposure to agrochemicals, such as adjuvants,  applied during bloom, has been suggested as a cause.”

Chris Mullin, Penn State professor of entomology, says adjuvants in general greatly improve the efficacy of pesticides by enhancing their toxicities.  Organosilicone adjuvants are the most potent adjuvants available to growers.

“Based on the California Department of Pesticide Regulation data for agrochemical applications to almonds, there has been increasing use of organosilicone adjuvants during crop blooming periods, when two-thirds of the U.S. honey bee colonies are present, Mullin says.

 Fine says the U.S. Environmental Protection Agency classifies organosilicone adjuvants as biologically inert, meaning they do not cause a reaction in living things.

“As a result,” she says, “there are no federally regulated restrictions on their use.”

To conduct their study, reported in the journal Scientific Reports, the researchers reared honey bee larvae under controlled conditions in the laboratory. During the initial stages of larval development, they exposed the larvae to a low chronic dose of Sylgard 309 in their diets. They also exposed some of the larvae to viral pathogens in their diets on the first day of the experiment.

“We found that bees exposed to the organosilicone adjuvant had higher levels of Black Queen Cell Virus,” Fine says.

“When they were exposed to the virus and the organosilicone adjuvant simultaneously, the effect on their mortality was synergistic rather than additive, meaning that the mortality was higher from the simultaneous application of adjuvant and virus than from exposure to either the organosilicone adjuvant or the viral pathogen alone, even if those two mortalities were added together.

“This suggests that the adjuvant is enhancing the damaging effects of the virus.” The researchers also found that a particular gene involved in immunity – called 18-wheeler – had reduced expression in bees treated with the adjuvant and the virus, compared to bees in the control groups.

“Taken together, these findings suggest that exposure to organosilicone adjuvants negatively influences immunity in honey bee larvae, resulting in enhanced pathogenicity and mortality,” Fine says.

Mullin says the team’s results suggest that recent honey bee declines in the U.S. may, in part, be due to the increased use of organosilicone adjuvants.

“Billions of pounds of formulation and tank adjuvants, including organosilicone adjuvants, are released into U.S. environments each year, making them an important component of the chemical landscape to which bees are exposed,” he says.

“We now know that at least Sylgard 309, when combined at a field-relevant concentration with Black Queen Cell Virus, causes synergistic mortality in honey bee larvae.”

Other authors on the paper include Diana Cox-Foster, USDA-ARS-PWA Pollinating Insect Research Unit.

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Common Crop Pesticides Kill Honeybee Larvae in the Hive

Science Daily    Source: Penn State   1/27/14

Four pesticides commonly used on crops to kill insects and fungi also kill honeybee larvae within their hives, according to new research. Scientists also found that N-methyl-2-pyrrolidone -- an inert, or inactive, chemical commonly used as a pesticide additive -- is highly toxic to honeybee larvae.

Four pesticides commonly used on crops to kill insects and fungi also kill honeybee larvae within their hives, according to Penn State and University of Florida researchers. The team also found that N-methyl-2-pyrrolidone (NMP) -- an inert, or inactive, chemical commonly used as a pesticide additive -- is highly toxic to honeybee larvae.

"We found that four of the pesticides most commonly found in beehives kill bee larvae," said Jim Frazier, professor of entomology, Penn State. "We also found that the negative effects of these pesticides are sometimes greater when the pesticides occur in combinations within the hive. Since pesticide safety is judged almost entirely on adult honeybee sensitivity to individual pesticides and also does not consider mixtures of pesticides, the risk assessment process that the Environmental Protection Agency uses should be...

Queen Bee Tells The Whole Hive About Their Sexual Flings

Los Angeles Times    By Geoffrey Mohan    11/14/13


Queen honeybees not only mate with lots of males, but they also brag about it to the whole hive.

A chemical signal from queen bee glands lets the female worker bees know that her mating dalliances were successful, and hint at just how fruitful they were, according to a study published Wednesday in the online journal PLOS One.

The honeybee, Apis mellifera, is equipped with one of the most complex chemical signaling systems in nature, with multiple pheromones controlling the social organization of the hive. They can encourage foraging, attract mates, keep new queens from being reared, and even change the population composition of the hive and alter the gene expression of worker bees.

But entomologists have wondered what kind of information those chemicals conveyed...

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