New! Sign up for our free email newsletter.
Science News
from research organizations

How longhorned beetles find Mr. Right

Date:
May 27, 2015
Source:
University of Arizona
Summary:
A longhorned beetle's sexy scent might make a female perk up her antennae. But when the males of several species all smell the same, a female cannot choose by cologne alone. For these beetles to find a mate of the right species, timing is everything, according to research.
Share:
FULL STORY

A longhorned beetle's sexy scent might make a female perk up her antennae. But when the males of several species all smell the same, a female cannot choose by cologne alone.

For these beetles to find a mate of the right species, timing is everything, according to research from a University of Arizona-led team.

"We found that beetles that produce the same pheromone are active at different times of day -- and that beetles that are active at the same time of day produce different pheromones," said lead author Robert F. Mitchell, a UA research associate in the department of neuroscience and the Center for Insect Science.

In addition, the team found that some of the beetle species that used the same pheromone stayed true to their species by segregating their mating activity by season of the year.

Many animals use chemicals called pheromones to communicate.

"Smell is an underappreciated sense in people -- but when you talk about insects, many 'see' their world in chemicals," said Mitchell, a fellow in the Postdoctoral Excellence in Research and Teaching program. "The most common thing they say with pheromones is, 'I'm looking for a mate.'"

Scientists generally expect each insect species to have its own signature perfume to attract suitable mates. When an insect emits its unique sexual attractant, potential suitors can come a-courting from hundreds of yards away.

However, the family of longhorned beetles presents a puzzle: Many species use the same pheromone, Mitchell said. The situation seemed to contradict the generally accepted idea of one species-one pheromone.

Once the team figured out the various beetle species sent out their scent signals during different parts of the year and at different times of the day, it all made sense, Mitchell said.

"Our research provides a framework for understanding how insects that produce the same pheromone can produce separate signals," he said.

Research on insect pheromones has practical applications, he said. "Pheromones are promising alternatives to pesticides as a means of monitoring and controlling pests."

For example, by baiting traps with the appropriate pheromone, scientists can detect pest insects and monitor their movements. In the Western U.S., pheromones are used to combat a longhorned beetle known as the California prionus that is a pest on hops, Mitchell said.

Using pheromones can also reveal the presence of destructive invasive species such as the Asian longhorned beetle.

The research team's paper, "Cerambycid beetle species with similar pheromones are segregated by phenology and minor pheromone components," is featured on the cover of the May issue of the Journal of Chemical Ecology. A list of the authors is at the end of this story.

As part of his doctoral research at the University of Illinois at Urbana-Champaign, Mitchell studied the chemical attractants for dozens of species of longhorned beetles native to deciduous forests of eastern North America. The beetles bore into the woody stems of dead shrubs and trees.

He later focused on 11 species all attracted to the same chemical. When he and his colleagues put traps baited with that pheromone out in the woods, after 24 hours the traps contained "a big multi-species party."

Initially, Mitchell and his colleagues were baffled. Such a multi-species party didn't make sense, he said, because mating outside one's species doesn't result in viable offspring.

"We asked, 'How do they tell each other apart if they're all producing the same thing?'" he said.

The team had been using traps that collected all the beetles attracted in a 24-hour period.

Senior author Lawrence M. Hanks learned about a rotating trap that could separate beetles by the time of day they entered the trap. That setup allowed the scientists to test whether different species were attracted only at certain times of day.

By using the rotating traps, the researchers found some species visited primarily in the daytime, some came in the early evening and some came at night. Other experiments revealed that the 11 species also searched for mates at different times in the spring.

Finally, the team found that species completely overlapping in time would add additional scents that put off other species while attracting their own.

Some exotic longhorned beetles such as the Asian longhorned beetle have been introduced to the U.S. in packing materials such as wooden pallets.

The scientists write in their paper that if an invasive species used the same pheromone as a complex of native species, the chemicals emitted by the natives might prevent the invaders from finding suitable mates.

"Our native beetles might be unwittingly defending us against invaders," Mitchell said.


Story Source:

Materials provided by University of Arizona. Original written by Mari N. Jensen. Note: Content may be edited for style and length.


Journal Reference:

  1. Hanks LM. et al. Cerambycid beetle species with similar pheromones are segregated by phenology and minor pheromone components. Journal of Chemical Ecology, May 2015 DOI: 10.1007/s10886-015-0571-0.

Cite This Page:

University of Arizona. "How longhorned beetles find Mr. Right." ScienceDaily. ScienceDaily, 27 May 2015. <www.sciencedaily.com/releases/2015/05/150527180910.htm>.
University of Arizona. (2015, May 27). How longhorned beetles find Mr. Right. ScienceDaily. Retrieved March 19, 2024 from www.sciencedaily.com/releases/2015/05/150527180910.htm
University of Arizona. "How longhorned beetles find Mr. Right." ScienceDaily. www.sciencedaily.com/releases/2015/05/150527180910.htm (accessed March 19, 2024).

Explore More

from ScienceDaily

RELATED STORIES