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      Developmental origins of species differences in telencephalon and tectum size: morphometric comparisons between a parakeet (Melopsittacus undulatus) and a quail (Colinus virgianus).

      The Journal of Comparative Neurology
      Animals, Biological Evolution, Embryo, Nonmammalian, Image Processing, Computer-Assisted, Immunohistochemistry, Parakeets, anatomy & histology, Quail, Species Specificity, Tectum Mesencephali, Telencephalon

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          Abstract

          Parrots, including parakeets, evolved significantly larger brains than other birds, relative to their body size, and they possess a proportionately larger telencephalon. For example, the telencephalon occupies approximately 68% of the brain in parakeets but only 52% in bobwhite quail. The present study was designed to determine when and how this difference in brain region proportions arises during development. To that end, we present volumetric data on the major brain regions in parakeets and bobwhite quail at several stages of embryogenesis, at hatching and, for the parakeets, 1 week after hatching. We also report on the proportional sizes of each region's proliferative and postproliferative zones. One major finding is that parakeets develop a proportionately larger telencephalon relatively late in development and that this late increase correlates with a delay in telencephalic neurogenesis. The most prominent aspect of this delayed telencephalic development is a tremendous expansion of the proliferative subventricular zone in the telencephalon of late embryonic and posthatching parakeets. The second major finding is that the tectum is much smaller in parakeets than in quail at all developmental stages examined, suggesting that the tectum's reduced size is due to an evolutionary change in how much tissue was allocated to become tectum at the time of brain regionalization. Collectively these findings indicate that evolutionary changes in brain region proportions are caused not by a single type of change but by several distinct developmental mechanisms, including changes in brain regionalization and neurogenesis timing. (c) 2008 Wiley-Liss, Inc.

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