Anatomy of human sensory cortices reflects inter-individual variability in time estimation

The ability to estimate duration is essential to human behavior, yet people vary greatly in their ability to estimate time and the brain structures mediating this inter-individual variability remain poorly understood. Here, we showed that inter-individual variability in duration estimation was highl...

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Main Authors: Sharon eGilaie-Dotan, Ryota eKanai, Geraint eRees
Format: Article
Language:English
Published: Frontiers Media S.A. 2011-11-01
Series:Frontiers in Integrative Neuroscience
Subjects:
VBM
Online Access:http://journal.frontiersin.org/Journal/10.3389/fnint.2011.00076/full
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spelling doaj-7139a82408304885ad81adf47b78e0c32020-11-24T23:06:02ZengFrontiers Media S.A.Frontiers in Integrative Neuroscience1662-51452011-11-01510.3389/fnint.2011.0007617857Anatomy of human sensory cortices reflects inter-individual variability in time estimationSharon eGilaie-Dotan0Sharon eGilaie-Dotan1Ryota eKanai2Geraint eRees3Geraint eRees4University College LondonUniversity College LondonUniversity College LondonUniversity College LondonUniversity College LondonThe ability to estimate duration is essential to human behavior, yet people vary greatly in their ability to estimate time and the brain structures mediating this inter-individual variability remain poorly understood. Here, we showed that inter-individual variability in duration estimation was highly correlated across visual and auditory modalities but depended on the scale of temporal duration. We further examined whether this inter-individual variability in estimating durations of different supra-second time scales (2s or 12s) was reflected in variability in human brain anatomy. We found that the gray matter volume in both the right posterior lateral sulcus encompassing primary auditory and secondary somatosensory cortex, plus parahippocampal gyrus strongly predicted an individual’s ability to discriminate longer durations of 12s (but not shorter ones of 2s) regardless of whether they were presented in auditory or visual modalities. Our findings suggest that these brain areas may play a common role in modality-independent time discrimination. We propose that an individual’s ability to discriminate longer durations is linked to self-initiated rhythm maintenance mechanisms relying on the neural structure of these modality specific sensory and parahippocampal cortices.http://journal.frontiersin.org/Journal/10.3389/fnint.2011.00076/fullTime Perceptionindividual differencesVBMmodality-independentneural structuresupra-second
collection DOAJ
language English
format Article
sources DOAJ
author Sharon eGilaie-Dotan
Sharon eGilaie-Dotan
Ryota eKanai
Geraint eRees
Geraint eRees
spellingShingle Sharon eGilaie-Dotan
Sharon eGilaie-Dotan
Ryota eKanai
Geraint eRees
Geraint eRees
Anatomy of human sensory cortices reflects inter-individual variability in time estimation
Frontiers in Integrative Neuroscience
Time Perception
individual differences
VBM
modality-independent
neural structure
supra-second
author_facet Sharon eGilaie-Dotan
Sharon eGilaie-Dotan
Ryota eKanai
Geraint eRees
Geraint eRees
author_sort Sharon eGilaie-Dotan
title Anatomy of human sensory cortices reflects inter-individual variability in time estimation
title_short Anatomy of human sensory cortices reflects inter-individual variability in time estimation
title_full Anatomy of human sensory cortices reflects inter-individual variability in time estimation
title_fullStr Anatomy of human sensory cortices reflects inter-individual variability in time estimation
title_full_unstemmed Anatomy of human sensory cortices reflects inter-individual variability in time estimation
title_sort anatomy of human sensory cortices reflects inter-individual variability in time estimation
publisher Frontiers Media S.A.
series Frontiers in Integrative Neuroscience
issn 1662-5145
publishDate 2011-11-01
description The ability to estimate duration is essential to human behavior, yet people vary greatly in their ability to estimate time and the brain structures mediating this inter-individual variability remain poorly understood. Here, we showed that inter-individual variability in duration estimation was highly correlated across visual and auditory modalities but depended on the scale of temporal duration. We further examined whether this inter-individual variability in estimating durations of different supra-second time scales (2s or 12s) was reflected in variability in human brain anatomy. We found that the gray matter volume in both the right posterior lateral sulcus encompassing primary auditory and secondary somatosensory cortex, plus parahippocampal gyrus strongly predicted an individual’s ability to discriminate longer durations of 12s (but not shorter ones of 2s) regardless of whether they were presented in auditory or visual modalities. Our findings suggest that these brain areas may play a common role in modality-independent time discrimination. We propose that an individual’s ability to discriminate longer durations is linked to self-initiated rhythm maintenance mechanisms relying on the neural structure of these modality specific sensory and parahippocampal cortices.
topic Time Perception
individual differences
VBM
modality-independent
neural structure
supra-second
url http://journal.frontiersin.org/Journal/10.3389/fnint.2011.00076/full
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