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For more than a century now, it has been known that patterns of electrical activity between neurons account for the marvelous repertoire of animal behaviors that we see in nature. Neuroethology tries to understand how the nervous system is responsible for animal behavior. The marine nudibranch Tritonia diomedea possesses a rather simple nervous system with maybe ten thousand brain cells (compared to the one hundred billion estimated for Homo sapiens). This book focuses on the very important role of a single pair of neurons in the motor behavior of this sea slug. The techniques used allowed for…mehr

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Produktbeschreibung
For more than a century now, it has been known that
patterns of electrical activity between neurons
account for the marvelous repertoire of animal
behaviors that we see in nature. Neuroethology tries
to understand how the nervous system is responsible
for animal behavior. The marine nudibranch Tritonia
diomedea possesses a rather simple nervous system
with maybe ten thousand brain cells (compared to the
one hundred billion estimated for Homo sapiens). This
book focuses on the very important role of a single
pair of neurons in the motor behavior of this sea
slug. The techniques used allowed for the recording
and the stimulation of individual cells during
navigation in the freely moving animal. The analysis
revealed a sufficient role for a pair of neurons in
turning while crawling suggesting that Tritonia s
nervous system integrates sensory information into a
single cell capable of directing the motor output
during crawling. This work reveals the capabilities
of a single cell in behavor and should be useful for
professionals interested in the theory of neuronal
control as well as researchers aware of the potential
of single cell stimulation.
Autorenporträt
Roger Redondo, a neuroscientist at the U. of Edinburgh, graduated
with a bachelor s degree in Biology from the U. of Barcelona and
a master s in neuroscience from the U. of Central Arkansas. He
studies the brain mechanisms of learning and memory, combining
electrophysiology with molecular biology and behavior.