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UW Researcher Learns How Nectar-Laden Honey Bees Avoid Overheating

bees on a cactus flower
Honey bees draw nectar from a cactus. (Jon Harrison Photo)

Honey bees carrying nectar have the remarkable ability to adjust their flight behavior to avoid overheating when air temperatures increase, according to research led by a University of Wyoming scientist.

Jordan Glass, a postdoctoral research associate in UW’s Department of Zoology and Physiology, conducted the study to determine how high air temperatures may limit the ability of honey bees to forage for nectar. His research findings appear in Proceedings of the National Academy of Sciences, one of the world’s most prestigious multidisciplinary scientific journals covering the biological, physical and social sciences.

Insect pollinators are declining at an alarming rate, due in part to climate change. While it is thought that extremely hot, dry conditions should limit when a honey bee can forage, Glass and colleagues found that these pollinating insects have the ability to remain active in significant heat. In fact, this study showed that honey bees can carry the same amount of nectar without a threat to their lives in temperatures ranging from 77 to 104 degrees Fahrenheit.

The researchers measured the flight muscle temperatures, metabolism and water loss of honey bees carrying nectar inside a temperature-controlled flight room to determine the insects’ ability to fly at high air temperatures. And, to determine how carrying nectar might change the flight behavior, the scientists also used high-speed videos of the flying bees to measure changes in how they flap their wings.

Specifically, their results demonstrated that the honey bees’ flight muscle temperatures and metabolism increased while carrying nectar at 68 and 86 degrees. However, at 104 degrees, muscle temperatures did not change, and flight metabolism only slightly increased with increasing nectar loads.

Analysis of the high-speed videos of honey bees flying at air temperatures of 77 and 104 degrees showed that, at high body temperatures, “bees apparently increase flight efficiency by lowering their wingbeat frequency and increasing stroke amplitude to compensate, reducing the need for evaporative cooling,” wrote Glass, who led the research as a doctoral student at Arizona State University.

In other words, as temperatures rise, the bees change how they fly to decrease the heat they generate from metabolism, which helps these insects avoid overheating and save precious water.

“Due to the capacity of hot bees to reduce metabolic heat production during flight, our data suggest that, under dry and poor forage conditions, (dehydration) may limit activity before overheating, impairing critical pollination services provided by honey bees,” Glass wrote. “Even with reductions in metabolic heat production, (dehydration) likely limits foraging at temperatures well below bees’ critical thermal maxima in hot, dry conditions.”

Although the findings from this study relieve some concern about the impact of a warming climate on honey bees, Glass says there is still reason for worry as the world becomes warmer and drier.

Contact Us

Institutional Communications
Bureau of Mines Building, Room 137
Laramie, WY 82071
Phone: (307) 766-2929
Email: cbaldwin@uwyo.edu


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