Birds Learn Songs in Their Sleep

Singing silently during sleep helps birds learn songs

In a study that suggests that sleep plays a central role in the learning process, University of Chicago researchers found that sleeping songbirds replay, rehearse and, perhaps, reinforce the neuronal activity patterns of song production.

Song acquisition is often used as a model system for how humans learn speech. Young birds learn to sing by listening to adults and then practice by listening to their own attempts. In the October 27, 2000, issue of Science, the researchers describe how the neurons involved in song generation precisely recreate during sleep the complex activities involved in singing, though no sound is produced.

"From our data we suspect the songbird dreams of singing," said Daniel Margoliash, Ph.D., associate professor in the department of organismal biology and anatomy at the University of Chicago, and principal investigator in the study. "The zebra finch appears to store the neuronal firing pattern of song production during the day and reads it out at night, rehearsing the song and, perhaps, improvising variations. The match is remarkably good."

The recent miniaturization of neuronal recording gear allowed Margoliash's team to study the activity of individual brain cells in birds that were relatively free to move about and behave naturally.

"The single-neuron recording gives us a powerful tool for the study of sleep's importance to learning," said Margoliash.

The researchers were able to record the firing patterns of individual pre-motor brain cells of four zebra finches, a well-studied songbird native to Australia that weighs only about half an ounce.

The male zebra finch works hard to attract the female with his stereotyped song, and the brain structures that control singing are highly specialized for this behavior.

The researchers compared the activity of each neuron while the awake bird sang, while a sleeping bird could hear a recording of its own song, and during undisturbed sleep.

While the birds are awake and singing the neurons fire in a pattern that is unique to the note and syllable components of each bird's individual song. When the awake bird hears its own song, these neurons do not fire in response.

But in the sleeping bird listening to a recording of its own song, the neurons do fire in the pattern identical to song production, though the bird produces no sound. This pattern of firing during listening, like the pattern of firing necessary to produce song, actually anticipates the next song "syllable," or set of notes.

"The learned song is a temporal code that uses the nerve impulse spikes of single cells in precisely matched patterns for hearing and singing. The two patterns can be 'mapped' to each other with spike-by-spike precision," said Margoliash. "The bird is using the preceding sound to predict how to generate the next syllable."

Understanding how patterns of behavior are represented in the brain has been a major problem for neurobiologists.

"Previously we found that during singing song is represented as a temporal code. Now, much to our surprise, we find this correspondence in single cells of matched sensory and motor patterns. Forming this mapping of sound and action is the process of learning," said Margoliash.

During undisturbed sleep, the researchers discovered, the neurons spontaneously fired the same complex song production patterns in bursts. Interestingly, these activity patterns were at slight variance, as if the bird was rehearsing a variety of slightly different songs, sometimes with slower or faster tempos.

How does the bird learn to correct its song when by the time it hears it the neuron is now engaged in the production of the next sound? Practice during sleep may be part of the answer.

"In contrast to the prevailing idea that it learns by making moment-to-moment adjustments, we think the bird stores the song production pattern and reads it out at night, an 'offline' solution to the timing problem," said Margoliash. "The zebra finch can replay and strengthen the pattern during sleep."

The next step, according to Margoliash, is to explore what happens to song learning when the sleep replay is interrupted.

"If we can describe the rules by which sleep acts on song learning, these lessons may apply to learning in other animals, including humans," said Margoliash. "Neurobiologists have often found that lessons learned from weird and wonderful animals apply to all animals. The beautiful songs of birds could have much to teach us about how we learn." .

Source: University of Chicago Medical Center

Threads, Knots, Tapestries
How a Tribal Connection Is Revealed through Dreams and Synchronicities
by Tess Castleman
Jungian analyst Tess Castleman, a veteran facilitator of dream group therapy, has compiled a fascinating collection of accounts, stories, anecdotes and examples of communal dreaming. Both a thesis and a guide, this book describes how the analysis of dreams in a group setting occurs most effectively. 

The first section of this book, "Threads," discusses the structure of dream groups and some keys to understanding dreams in a communal setting. "Knots," the middle section, discusses how members of dream groups bond and collaborate.  The final section, "Tapestries," explores how the dreams and dreamers weave together in patterns of synchronicity.

The book's appendix describes Heyoka shamanism as a form of analytical psychology and provides list of dream group therapy applications

"Heyoka medicine can be seen as a model for the entire process of individuation or transformation one seeks in Jungian analysis," Castelman writes. "It is through the slow uncovering of dreams and visions that we come face to face with the left-out parts of ourselves, the ones that frighten and cajole us to be more whole, complete."


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by Diana Rosen
"Immediately upon waking, ask your dreams to show themselves. You may want to lie in bed and bring up the memories of your dreams or take pen and journal in hand and write whatever comes to your mind. Try to keep your body and mind in a state of relaxation, which helps keep the memory of dreams alive and at the surface of the conscious mind."
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