1. Evo-devo and brain scaling: candidate developmental mechanisms for variation and constancy in vertebrate brain evolution
- Author
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Christine J. Charvet, Georg F. Striedter, and Barbara L. Finlay
- Subjects
Nervous system ,Paper ,Ecology (disciplines) ,Neurogenesis ,Biology ,Models, Biological ,Behavioral Neuroscience ,Developmental Neuroscience ,Species Specificity ,biology.animal ,medicine ,Animals ,Set (psychology) ,Organism ,Body Patterning ,Neurons ,Cell Cycle ,Vertebrate ,Brain ,Organ Size ,Biological Evolution ,Anatomy, Comparative ,medicine.anatomical_structure ,Brain size ,Vertebrates ,Evolutionary developmental biology ,sense organs ,Neuroscience - Abstract
Biologists have long been interested in both the regularities and the deviations in the relationship between brain, development, ecology, and behavior between taxa. We first examine some basic information about the observed ranges of fundamental changes in developmental parameters (i.e. neurogenesis timing, cell cycle rates, and gene expression patterns) between taxa. Next, we review what is known about the relative importance of different kinds of developmental mechanisms in producing brain change, focusing on mechanisms of segmentation, local and general features of neurogenesis, and cell cycle kinetics. We suggest that a limited set of developmental alterations of the vertebrate nervous system typically occur and that each kind of developmental change may entail unique anatomical, functional, and behavioral consequences for the organism. Thus, neuroecologists who posit a direct mapping of brain size to behavior should consider that not any change in brain anatomy is possible.
- Published
- 2011