THE DYNAMICS OF SUCCESSIVE INDUCTION IN LARVAL ZEBRAFISH

THE DYNAMICS OF SUCCESSIVE INDUCTION IN LARVAL ZEBRAFISH

Charles Sherrington identified the properties of the synapse by purely behavioral means—the study of reflexes—more than 100 years ago. They were subsequently confirmed neurophysiologically. Studying reflex interaction, he also showed that activating one reflex often facilitates another, antagonistic...

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Veröffentlicht in:Journal of the experimental analysis of behavior 2010-09, Vol.94 (2), p.261-266
Hauptverfasser: Staddon, J. E. R., MacPhail, R. C., Padilla, S.
Format: Artikel
Sprache:eng
Schlagworte:
activity
Animals
Aphididae
Behavior
Behavior Patterns
Behavioral Science Research
contrast
Danio rerio
Darkness
dynamics
Experiments
Freshwater
Habituation
Light
Lighting
Logical Thinking
Models, Biological
Motion
Motor Activity
Neurological Organization
Neuropsychological Tests
Photoperiod
Physiology
Psychological Patterns
reflex
Responses
Special Section: Dynamics of Choice
Zebrafish
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Beschreibung
Zusammenfassung:Charles Sherrington identified the properties of the synapse by purely behavioral means—the study of reflexes—more than 100 years ago. They were subsequently confirmed neurophysiologically. Studying reflex interaction, he also showed that activating one reflex often facilitates another, antagonistic one: successive induction, which has since been demonstrated in a wide range of species, from aphids to locusts to dogs and humans. We show a particularly orderly example in zebrafish (Danio rerio) larvae; the behavior (locomotion) of larvae is low in dark and intermediate in light, but low in light and substantially higher in dark when dark followed light. A quantitative model of a simple dynamic process is described that readily captures the behavior pattern and the effects of a number of manipulations of lighting conditions.
ISSN:0022-5002
1938-3711
DOI:10.1901/jeab.2010.94-261