Profile image
By Cornucopia Institute (Reporter)
Contributor profile | More stories
Story Views

Now:
Last Hour:
Last 24 Hours:
Total:

Bees Have Minds of Their Own

Thursday, March 2, 2017 9:07
% of readers think this story is Fact. Add your two cents.

Headline: Bitcoin & Blockchain Searches Exceed Trump! Blockchain Stocks Are Next!

Cornucopia’s Take: Bees have long been studied by humans, but we have been unaware that they are likely studying us as well. From this interesting research, scientists have discovered that bees can learn how to use unfamiliar tools to benefit their needs.


Even bumblebees can learn to use tools, scientists show
LA Times
by Amina Khan

Source: Brian Tomlinson

Nevermind their loud, sleepy buzz, bumblebees are no drones. Scientists have discovered that these nectar-hunting insects actually can learn to use a new tool by watching others.

The findings, described in the journal Science, add to a growing body of work showing that these kinds of smarts aren’t limited to bigger-brained, vertebrate animals (such as humans).

“It is a nice confirmation that this level of cognitive complexity is possible in something as simple as a bee,” said James Nieh, a behavioral ecologist at UC San Diego who was not involved in the work.

Social insects like bees, ants and termites often get a lot of credit for collectively acting like super-organisms, guided by what some have dubbed “swarm intelligence.” Individual insects in the colony, however, haven’t exactly been considered Mensa material.

The idea is based on an assumption that these insects are limited to a fairly small set of behaviors, and out of the decisions of many individual insects emerges the apparent collective intelligence. Scientists are interested in studying the rules underlying those behaviors so they can make cooperative robots, including termite-inspired builders that could be sent to disaster zones.

Recent experiments, however, have shown that even as individuals, these supposedly simple animals are capable of far more than previously imagined. Bees have been shown to perform a wide range of cognitive tasks involving counting, concept learning and social learning.

But many of these jobs have analogues in their natural foraging routines. A better test, the authors wrote, would be to test whether these bees can pick up a task that’s different from their normal routine.

For this paper, co-lead author Olli Loukola, a behavioral ecologist at Queen Mary University of London, and his colleagues placed bumblebees well outside of their natural comfort zone, in an arena resembling a single hole in bee-sized mini-golf. The goal: Get a yellow ball into the hole in the center of the platform and be rewarded with a sugar solution. The scientists used a fake bee mounted on a transparent stick to show the insects what to do. Over 10 rounds, the bees finished the task faster and more efficiently, taking shorter paths to get the ball to its goal.

In the next iteration of the experiment, scientists placed three yellow balls in the arena and glued down the two closest to the center. Then they divided the bees into three groups. Some were allowed to watch a previously trained bee move the farthest ball (the only one not glued in place) to the hole and get its sweet reward. Others saw the ball move to the center in a ghostly fashion (pulled by a magnet beneath the platform) before getting the sweet treat. In the third group, the bees saw no demonstration — they simply encountered the ball already in the center with the sugar solution available.

Next came the real test: to see what the novice bees had learned. Researchers put the bumblebees into the arena with three balls. None was glued down this time, but the ball closest to the hole was black instead of yellow.

As it turned out, the bees who watched an expert successfully made a hole-in-one in 99% of their trials and took the least time to do it — an average of 47 seconds. Those who saw the “ghost” demonstration got it right about 78% of the time and took 84 seconds, while those with no demonstration fared far worse, figuring it out only 34% of the time and in roughly 96 seconds.

The bees had learned this random task with an unfamiliar tool — neither the job nor the ball has anything to do with their normal behaviors — just by watching the ball move. They picked up the action quicker and faster after watching an expert at work.

But the novice bees didn’t mimic their teachers directly. Even though the expert bees moved only the farthest, yellow ball, the novices tended to go for the black ball closest to the hole. (The bees in the first experiment also preferred to pull the ball backward toward the center, even though they saw the fake bee-on-a-stick push it forward.)

In the next iteration of the experiment, scientists placed three yellow balls in the arena and glued down the two closest to the center. Then they divided the bees into three groups. Some were allowed to watch a previously trained bee move the farthest ball (the only one not glued in place) to the hole and get its sweet reward. Others saw the ball move to the center in a ghostly fashion (pulled by a magnet beneath the platform) before getting the sweet treat. In the third group, the bees saw no demonstration — they simply encountered the ball already in the center with the sugar solution available.

Next came the real test: to see what the novice bees had learned. Researchers put the bumblebees into the arena with three balls. None was glued down this time, but the ball closest to the hole was black instead of yellow.

As it turned out, the bees who watched an expert successfully made a hole-in-one in 99% of their trials and took the least time to do it — an average of 47 seconds. Those who saw the “ghost” demonstration got it right about 78% of the time and took 84 seconds, while those with no demonstration fared far worse, figuring it out only 34% of the time and in roughly 96 seconds.

The bees had learned this random task with an unfamiliar tool — neither the job nor the ball has anything to do with their normal behaviors — just by watching the ball move. They picked up the action quicker and faster after watching an expert at work.

But the novice bees didn’t mimic their teachers directly. Even though the expert bees moved only the farthest, yellow ball, the novices tended to go for the black ball closest to the hole. (The bees in the first experiment also preferred to pull the ball backward toward the center, even though they saw the fake bee-on-a-stick push it forward.)

So one of the next steps, he said, could be to try to repeat this experiment with other bee species, to determine whether they also can learn new tricks from one another. This might be harder to pull off, as some species require larger flight cages and often spend much of their time trying to escape. Bumblebees need smaller flight cages and tend to settle down more quickly.

In recent years, scientists have begun looking at the brains of insects — how they process so much with such little headspace — for insight into building smarter computers. The bumblebee, it seems, could offer a few pointers.

“The way that data is stored on a computer chip and recalled is very different from a brain, but in terms of what it can do in the real world, I think we actually can learn a lot from animal brains,” Nieh said.

The post Bees Have Minds of Their Own appeared first on Cornucopia Institute.



Source: https://www.cornucopia.org/2017/03/bees-have-minds-of-their-own/

Report abuse

Comments

Your Comments
Question   Razz  Sad   Evil  Exclaim  Smile  Redface  Biggrin  Surprised  Eek   Confused   Cool  LOL   Mad   Twisted  Rolleyes   Wink  Idea  Arrow  Neutral  Cry   Mr. Green

Top Stories
Recent Stories
 

Featured

 

Top Global

 

Top Alternative

 

Register

Newsletter

Email this story
Email this story

If you really want to ban this commenter, please write down the reason:

If you really want to disable all recommended stories, click on OK button. After that, you will be redirect to your options page.