Neonicotinoids make bees 'drunk', scientists find
James Nieh, left, and Simone Tosi. Credit: UC San Diego
Previous research has shown that foraging honey bees that ingested neonicotinoid pesticides, crop insecticides that are commonly used in agriculture, were less likely to return to their home nest, leading to a decrease in foragers.
A study published April 26 in Scientific Reports by UC San Diego postdoctoral researcher Simone Tosi, biology professor James Nieh, along with associate professor Giovanni Burgio of the University of Bologna, Italy, describes in detail how the neonicotinoid pesticide thiamethoxam damages honey bees. Thiamethoxam is used in crops such as corn, soybeans and cotton. To test the hypothesis that the pesticide impairs flight ability, the researchers designed and constructed a flight mill (a bee flight-testing instrument) from scratch. This allowed them to fly bees under consistent and controlled conditions.
A honey bee (Apis mellifera) is harnessed for study on a flight mill in biology professor James Nieh’s laboratory, UC San Diego. Credit: UC San Diego
Months of testing and data acquisition revealed that typical levels of neonicotinoid exposure, which bees could experience when foraging on agricultural crops — but below lethal levels — resulted in substantial damage to the honey bee’s ability to fly.
“Our results provide the first demonstration that field-realistic exposure to this pesticide alone, in otherwise healthy colonies, can alter the ability of bees to fly, such as impairing flight distance, duration, and velocity” said Tosi. “Honey bee survival depends on its ability to fly, because that’s the only way they can collect food. Their flight ability is also crucial to guarantee crop and wild plant pollination.”
Drunken bees
Long-term exposure to the pesticide over one to two days reduced the ability of bees to fly. Short-term exposure briefly increased their activity levels. Bees flew farther, but based upon other studies, more erratically.
“Bees that fly more erratically for greater distances may decrease their probability of returning home,” said Nieh, a professor in UC San Diego’s Division of Biological Sciences.
This pesticide does not normally kill bees immediately. It has a more subtle effect, said Nieh.
“The honey bee is a highly social organism, so the behavior of thousands of bees are essential for the survival of the colony,” said Nieh. “We’ve shown that a sub-lethal dose may lead to a lethal effect on the entire colony.”
A flight mill instrument was used to test the flight ability of tethered forager bees. Credit: UC San Diego
Bee health is fundamental to that of humans
Honey bees carry out fundamentally vital roles in nature by providing essential ecosystem functions, including global pollination of crops and native plants. Declines in managed honey bee populations have raised concerns about future impacts on the environment, food security and human welfare.
Neonicotinoid insecticides are neurotoxic and used around the world on broad varieties of crops, including common fruits and vegetables, through spray, soil and seed applications. Evidence of these insecticides has been found in the nectar, pollen and water that honey bees collect.
“People are concerned about honey bees and their health being impaired because they are so closely tied to human diet and nutrition,” said Nieh. “Some of the most nutritious foods that we need to consume as humans are bee-pollinated.”
The research was supported by a Marco Polo scholarship.
Source: University of California