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For Australian Magpies, Bigger Groups May Mean Bigger Brains

Living in larger groups may make these birds better learners
© The Swiney CC View Large

Some scientists believe our complex human brains are the result of living in complex social groups. We have to keep track of lots of other individuals and constantly changing social relationships. Scientists studying Australian Magpies in the wild have found that birds living in bigger groups also tend to be better learners and have better memories.

Support comes from Sasquatch Books, offering BirdNote, the Book – for holiday gift giving. With stories of 100 birds. More at SasquatchBooks.com.

Full Transcript

Transcript: 

BirdNote®

For Magpies, Bigger Groups May Mean Bigger Brains

Written by BirdNote Staff

[These birds sound like extras in a late-night sci-fi movie. Some sounds: https://macaulaylibrary.org/asset/229623; https://macaulaylibrary.org/asset/229627; ML233729]

This is BirdNote.

Why do we humans have such complex brains?

A commonly favored theory is that our brains evolved to meet the challenges of living in large social groups. In groups, individuals need to keep track of complex, changing social relationships, while also surmising the intentions and future behavior of other individuals. That takes a lot of brain power.

Of course, this is a tricky — and maybe impossible — theory for scientists to test in humans. But they have been able to test it in birds.

Scientists in Western Australia interested in testing birds’ problem-solving skills followed groups of wild Australian Magpies. These large, black and white birds usually live in groups of three to twelve. When the birds were very young, there were no differences between them. But by the time they reached 200 days old, the birds that lived in the larger groups were performing better on tests of spatial memory. And they were also doing better at practicing self-control and at learning the association between a stimulus and a reward.

The scientists also found that more intelligent females produced more offspring.

Does this experiment with magpies translate to humans? We may never know for sure.

There’s still so much that birds can teach us about ourselves.

For BirdNote, I’m Mary McCann.

Support comes from Sasquatch Books, offering BirdNote, the Book – for holiday gift giving. With stories of 100 birds. More at SasquatchBooks.com.


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Bird sounds provided by The Macaulay Library of Natural Sounds at the Cornell Lab of Ornithology, Ithaca, New York. Recorded by V Powys.
BirdNote’s theme music was composed and played by Nancy Rumbel and John Kessler.
Producer: John Kessler
Managing Producer: Jason Saul
Associate Producer: Ellen Blackstone
© 2018 Tune In to Nature.org   December 2018   Narrator: Mary McCann
 
ID#  AUSMAG-01-2018-12-04    AUSMAG-01


Reference

Ashton, B. I., A. R. Ridley, E. K. Edwards & A. Thornton. 2018. Cognitive performance is linked to group size and affects fitness in Australian magpies.  Nature 554:364-367.
https://phys.org/news/2018-02-large-group-boosts-magpie-intelligence.html

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