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Bee buzzes could help save decreasing population (Image 2)

Bumblebee collecting nectar

A Bombus balteatus bumblebee queen collects nectar from an alpine clover (Trifolium parryi). The buzzes of bees flying from flower to flower tell scientists how much pollination the clover population is getting over time and predict seed production in these alpine wildflowers. [Image 2 of 7 related images. See Image 3.]

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Recent studies indicate that declines in wild and managed bee populations threaten the pollination of flowers in more than 85 percent of flowering plants and 75 percent of agricultural crops worldwide. Widespread and effective monitoring of bee populations could lead to better management, but tracking bees is difficult and costly.

Now, a research team led by the University of Missouri (MU) has developed an inexpensive acoustic listening system using data from small microphones in the field to monitor bees in flight. Their study shows how farmers could use the technology to monitor pollination and increase food production.

Candace Galen, a professor of biological science in the MU College of Arts and Science, says the causes of pollinator decline are complex and include a number of factors including diminishing flower resources, habitat loss, climate change, increased disease incidence and exposure to pesticides, thereby making it difficult to pinpoint the driving forces of decline.

"For more than 100 years, scientists have used sonic vibrations to monitor birds, bats, frogs and insects," says Galen. "We wanted to test the potential for remote monitoring programs that use acoustics to track bee flight activities."

For the study, the team first analyzed the characteristic frequencies of bee buzzes in the lab. Next, they moved out in the field to estimate bumblebee activity. They placed small microphones -- attached to data storage devices -- in three locations on Pennsylvania Mountain, Colorado, to collected acoustic survey data.

This data was used to develop algorithms that identified and quantified the number of bee buzzes in each location and compared that data to visual surveys the team made in the field. In almost every instance, the acoustic surveys were more sensitive, picking up more buzzing bees.

"Eavesdropping on the acoustic signatures of bee flights tells the story of bee activity and pollination services," Galen says. "Farmers may be able to use the exact methods to monitor pollination of their orchards and vegetable crops and head off pollination deficits. Finally, global 'citizen scientists' could get involved, monitoring bees in their backyards."

This project was supported in part by a grant from the National Science Foundation (grant DGE 10-45322).

Read more about this research in the MU news story Bee buzzes could help determine how to save their decreasing population. (Date image taken: 2014; date originally posted to NSF Multimedia Gallery: Dec. 7, 2017)

Credit: Candace Galen
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