Enhanced visual attention for targets in homogeneous textures is reflected in occipital alpha and theta band activity
Enhanced visual attention for targets in homogeneous textures is reflected in occipital alpha and theta band activity
Increasing context heterogeneity has been found to reduce attention deployment towards an embedded target item. Heterogeneity in visual search tasks is typically induced by segmenting the background into several perceptual groups. In the present study, however, context heterogeneity was induced by varying whole-field heterogeneity, i.e., the degree of distractor variability within the entire context. This allowed us to (i) more gradually vary context heterogeneity, and (ii) investigate attention deployment on a whole-field scale. Results showed that both search performance and amplitude of the N2pc (lateralized ERP; posterior contralateral negativity in the N2 range) monotonically decreased with increasing context heterogeneity, which confirmed that there was less efficient attention deployment for more heterogeneous contexts. The amplitude of the bilateral N2 exhibited a U-shaped function, suggesting global perception for the lowest and highest levels of heterogeneity, but local processing for intermediate heterogeneity levels. Independent component analyses revealed an occipital ERP-contributing effective source cluster that may reflect stimulus representations on a saliency map. With increasing heterogeneity, these sources exhibited more theta band activity for distractors and less theta band activity for targets. Alpha band activity of a second component cluster varied with heterogeneity level, and low-theta/delta activity of a third source cluster distinguished target presence versus absence. In sum, our results suggest that independent brain sources contributed to the differential processing of heterogeneous versus homogeneous contexts.
1-20
Feldmann-Wustefeld, Tobias
ad65a041-3b03-4374-8483-2eb878a6c909
Miyakoshi, Makoto
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Petilli, Marco Alessandro
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Schubö, Anna
b76528b7-1aba-424c-ba62-242cbc0bfcd9
Makeig, Scott
13e376cb-709c-4377-ba95-9f55f312d9ec
7 December 2017
Feldmann-Wustefeld, Tobias
ad65a041-3b03-4374-8483-2eb878a6c909
Miyakoshi, Makoto
396ede36-8d37-4532-aeac-357d9d69a944
Petilli, Marco Alessandro
da08760f-01e8-481b-b6a7-c3a81ddf4a8a
Schubö, Anna
b76528b7-1aba-424c-ba62-242cbc0bfcd9
Makeig, Scott
13e376cb-709c-4377-ba95-9f55f312d9ec
Feldmann-Wustefeld, Tobias, Miyakoshi, Makoto, Petilli, Marco Alessandro, Schubö, Anna and Makeig, Scott
(2017)
Enhanced visual attention for targets in homogeneous textures is reflected in occipital alpha and theta band activity.
PLoS ONE, 12 (12), , [e0187763].
(doi:10.1371/journal.pone.0187763).
Abstract
Increasing context heterogeneity has been found to reduce attention deployment towards an embedded target item. Heterogeneity in visual search tasks is typically induced by segmenting the background into several perceptual groups. In the present study, however, context heterogeneity was induced by varying whole-field heterogeneity, i.e., the degree of distractor variability within the entire context. This allowed us to (i) more gradually vary context heterogeneity, and (ii) investigate attention deployment on a whole-field scale. Results showed that both search performance and amplitude of the N2pc (lateralized ERP; posterior contralateral negativity in the N2 range) monotonically decreased with increasing context heterogeneity, which confirmed that there was less efficient attention deployment for more heterogeneous contexts. The amplitude of the bilateral N2 exhibited a U-shaped function, suggesting global perception for the lowest and highest levels of heterogeneity, but local processing for intermediate heterogeneity levels. Independent component analyses revealed an occipital ERP-contributing effective source cluster that may reflect stimulus representations on a saliency map. With increasing heterogeneity, these sources exhibited more theta band activity for distractors and less theta band activity for targets. Alpha band activity of a second component cluster varied with heterogeneity level, and low-theta/delta activity of a third source cluster distinguished target presence versus absence. In sum, our results suggest that independent brain sources contributed to the differential processing of heterogeneous versus homogeneous contexts.
Text
journal.pone.0187763
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More information
Accepted/In Press date: 25 October 2017
e-pub ahead of print date: 7 December 2017
Published date: 7 December 2017
Identifiers
Local EPrints ID: 424406
URI: http://eprints.soton.ac.uk/id/eprint/424406
ISSN: 1932-6203
PURE UUID: 01ca8220-f25e-44ab-a8c6-ac8ef7bba1a1
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Date deposited: 05 Oct 2018 11:37
Last modified: 15 Mar 2024 21:29
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Contributors
Author:
Tobias Feldmann-Wustefeld
Author:
Makoto Miyakoshi
Author:
Marco Alessandro Petilli
Author:
Anna Schubö
Author:
Scott Makeig
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