August 2014
Volume 14, Issue 10
Free
Vision Sciences Society Annual Meeting Abstract  |   August 2014
Correlation between Vividness of Visual Imagery and Echolocation Ability in Sighted, Echo-Naïve People
Author Affiliations
  • Lore Thaler
    Department of Psychology, Durham University, UK
  • Rosanna Wilson
    Department of Psychology, Durham University, UK
  • Bethany Gee
    Department of Psychology, Durham University, UK
Journal of Vision August 2014, Vol.14, 427. doi:10.1167/14.10.427
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      Lore Thaler, Rosanna Wilson, Bethany Gee; Correlation between Vividness of Visual Imagery and Echolocation Ability in Sighted, Echo-Naïve People. Journal of Vision 2014;14(10):427. doi: 10.1167/14.10.427.

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      © ARVO (1962-2015); The Authors (2016-present)

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Abstract

The ability of humans to echolocate has been recognised since the 1940s. Little is known about what determines individual differences in echolocation ability, however. Although hearing ability has been suggested as an important factor in blind people and sighted trained echolocators, there is evidence to suggest that this may not be the case for sighted novices. Therefore non-auditory aspects of human cognition might be relevant. Previous brain imaging studies have shown activation of the early visual, i.e. calcarine, cortex during echolocation in blind echolocation experts, and also during visual imagery in blind and sighted people. Therefore, here we investigated the relationship between echolocation ability and vividness of visual imagery (VVI). 24 sighted echolocation novices completed Marks (1973) VVI questionnaire and they also performed an echolocation size discrimination task. Furthermore, they participated in a battery of auditory tests that determined their ability to detect fluctuations in sound frequency and intensity, as well as hearing differences between the right and left ear. A correlational analysis revealed a significant relationship between participants VVI and echolocation ability, i.e. participants with stronger vividness of visual imagery also had higher echolocation ability, even when differences in auditory abilities were taken into account. In terms of underlying mechanisms, we suggest that either the use of visual imagery is a strategy for echolocation, or that visual imagery and echolocation both depend on the ability to recruit calcarine cortex for cognitive tasks that do not rely on retinal input.

Meeting abstract presented at VSS 2014

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