Male finches, Fringilla coelebs, woo their partners through song.

Credit: Wikimedia

Related articles

• Bird brains show how animals learn
• Old age memory loss explained
• How juggling rewires your brain
• Neuroscientists discover why old dogs can't learn new tricks
• Taxi driver training changes brain structure

PARIS: Scientists peered into the brain of an adolescent finch as it listened to the warble of an adult brain and saw the cells changing, which may provide insights into the learning process.

Just a single experience can rapidly shape a juvenile brain and alter the way it functions, the research suggests.

Whether in birds or humans, acquiring the ability to perform certain acts is critically important for survival.

Must learn to sing precisely

"Many skills, including communication skills, require great precision if you want to stay in the gene pool," said Richard Mooney from Duke University in Durham, North Carolina.

"A male songbird has to learn to sing precisely or he won't attract a mate."

Previous studies have pointed to a link between structural changes in the brain and sensory input.

But whether these changes lead to learning remained uncertain.
To find out, Mooney and other researchers peered directly into the brain of an anesthetised immature bird with a laser-powered microscope.

Bird brains

As it heard the song of a mature male from the same species, they witnessed a dramatic transformation in connective tissue, called dendritic spines, which link nerve cells in the brain.

Yet the change was not the one they had anticipated.

"We expected to see the building of new spines and the loss of old spines accelerate," Mooney said.

This is because it can take weeks or months for a juvenile to master the adult song. As a result, the scientists assumed that the brain would remain highly malleable, or 'plastic', during that period.

Small window of opportunity

Instead they saw exactly the opposite: hearing a tutor song rapidly stabilised previously dynamic synapses, according to the study, published in the journal Nature.

The findings also suggest that the window of opportunity for picking up the all-important mating song slammed shut after a certain age.

"Juveniles in which spines were already highly stable weren't able to learn from their tutors," said lead author Todd Roberts, a neurobiologist at Duke.

The work could help efforts to restore plasticity to cerebral nerves, called synapses, after a stroke or other brain damage, he said.