Plumes of neuronal activity propagate in three dimensions through the nuclear avian brain
Publication date
2014-02-28
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Abstract
Background: In mammals, the slow-oscillations of neuronal membrane potentials (reflected in the electroencephalogram as high-amplitude, slow-waves), which occur during non-rapid eye movement sleep and anesthesia, propagate across the neocortex largely as two-dimensional traveling waves. However, it remains unknown if the traveling nature of slow-waves is unique to the laminar cytoarchitecture and associated computational properties of the neocortex.Results: We demonstrate that local field potential slow-waves and correlated multiunit activity propagate as complex three-dimensional plumes of neuronal activity through the avian brain, owing to its non-laminar, nuclear neuronal cytoarchitecture.Conclusions: The traveling nature of slow-waves is not dependent upon the laminar organization of the neocortex, and is unlikely to subserve functions unique to this pattern of neuronal organization. Finally, the three-dimensional geometry of propagating plumes may reflect computational properties not found in mammals that contributed to the evolution of nuclear neuronal organization and complex cognition in birds.
Keywords
Bird, Cortex, Propagation, Sleep, Slow waves, Travelling, General Agricultural and Biological Sciences, General Biochemistry,Genetics and Molecular Biology, Cell Biology, Ecology, Evolution, Behavior and Systematics, Plant Science, Developmental Biology, Structural Biology, Biotechnology, Physiology
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Beckers, G J L, van der Meij, J, Lesku, J A & Rattenborg, N C 2014, 'Plumes of neuronal activity propagate in three dimensions through the nuclear avian brain', BMC Biology, vol. 12, no. 16, 16. https://doi.org/10.1186/1741-7007-12-16