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Title of the item:

Hierarchy, multidomain modules, and the evolution of intelligence.

Title :
Hierarchy, multidomain modules, and the evolution of intelligence.
Authors :
de Jesus Dias Martins M; Max Planck Institute for Human Cognitive and Brain Sciences,04103 Leipzig,://www.researchgate.net/profile/Mauricio_Martins4.
Di Paolo LD; Lichtenberg-Kolleg Institute,University of Goettingen,37075 Gö://sites.google.com/site/lauradesireedipaolo.
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Source :
The Behavioral and brain sciences [Behav Brain Sci] 2017 Jan; Vol. 40, pp. e212.
Publication Type :
Journal Article; Comment
Language :
English
Imprint Name(s) :
Original Publication: Cambridge [Eng.], New York, Cambridge Univ. Press.
MeSH Terms :
Intelligence*
Entry Date(s) :
Date Created: 20180119 Date Completed: 20190222 Latest Revision: 20190222
Update Code :
20211105
DOI :
10.1017/S0140525X16001710
PMID :
29342667
Academic Journal
In this commentary, we support a complex, mosaic, and multimodal approach to the evolution of intelligence. Using the arcuate fasciculus as an example of discontinuity in the evolution of neurobiological architectures, we argue that the strict dichotomy of modules versus G, adopted by Burkart et al. in the target article, is insufficient to interpret the available statistical and experimental evidence.
Comment on: Behav Brain Sci. 2017 Jan;40:e195. (PMID: 27464851)
Comment in: Behav Brain Sci. 2017 Jan;40:e224. (PMID: 29342679)

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