Literature DB >> 27803287

A neuroanatomical predictor of mirror self-recognition in chimpanzees.

E E Hecht1,2, L M Mahovetz3, T M Preuss4,5,6, W D Hopkins1,4,7,8.   

Abstract

The ability to recognize one's own reflection is shared by humans and only a few other species, including chimpanzees. However, this ability is highly variable across individual chimpanzees. In humans, self-recognition involves a distributed, right-lateralized network including frontal and parietal regions involved in the production and perception of action. The superior longitudinal fasciculus (SLF) is a system of white matter tracts linking these frontal and parietal regions. The current study measured mirror self-recognition (MSR) and SLF anatomy in 60 chimpanzees using diffusion tensor imaging. Successful self-recognition was associated with greater rightward asymmetry in the white matter of SLFII and SLFIII, and in SLFIII's gray matter terminations in Broca's area. We observed a visible progression of SLFIII's prefrontal extension in apes that show negative, ambiguous, and compelling evidence of MSR. Notably, SLFIII's terminations in Broca's area are not right-lateralized or particularly pronounced at the population level in chimpanzees, as they are in humans. Thus, chimpanzees with more human-like behavior show more human-like SLFIII connectivity. These results suggest that self-recognition may have co-emerged with adaptations to frontoparietal circuitry.
© The Author (2016). Published by Oxford University Press.

Entities:  

Keywords:  brain evolution; chimpanzees; lateralization; self-recognition; superior longitudinal fasciculus

Mesh:

Year:  2017        PMID: 27803287      PMCID: PMC5390703          DOI: 10.1093/scan/nsw159

Source DB:  PubMed          Journal:  Soc Cogn Affect Neurosci        ISSN: 1749-5016            Impact factor:   3.436


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