Microsaccadic modulation of response times in spatial attention tasks

Covert shifts of attention are usually reflected in RT differences between responses to valid and invalid cues in the Posner spatial attention task. Such inferences about covert shifts of attention do not control for microsaccades in the cue-target interval. We analyzed the effects of microsaccade orientation on RTs in four conditions, crossing peripheral visual and auditory cues with peripheral visual and auditory discrimination targets. Reaction time was generally faster on trials without microsaccades in the cue-target interval. If microsaccades occurred, the target-location congruency of the last microsaccade in the cue-target interval interacted in a complex way with cue validity. For valid visual cues, irrespective of whether the discrimination target was visual or auditory, target-congruent microsaccades delayed RT. For invalid cues, target-incongruent microsaccades facilitated RTs for visual target discrimination but delayed RT for auditory target discrimination. No reliable effects on RT were associated with auditory cues or with the first microsaccade in the cue-target interval. We discuss theoretical implications on the relation about spatial attention and oculomotor processes.

[1]  M B CLOWES A note on colour discrimination under conditions of retinal image constraint. , 1962, The Optometric weekly.

[2]  Ralf Engbert,et al.  Microsaccade Orientation Supports Attentional Enhancement Opposite a Peripheral Cue: Commentary on Tse, Sheinberg, and Logothetis (2003) , 2004, Psychological science.

[3]  V. Carey,et al.  Mixed-Effects Models in S and S-Plus , 2001 .

[4]  Ralf Engbert Microsaccades: A microcosm for research on oculomotor control, attention, and visual perception. , 2006, Progress in brain research.

[5]  D. Bates,et al.  Mixed-Effects Models in S and S-PLUS , 2001 .

[6]  Ralf Engbert,et al.  Microsaccades are triggered by low retinal image slip. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[7]  H. Deubel,et al.  The effect of saccades on threshold perception — A model study , 1986, Biological Cybernetics.

[8]  M. Turatto,et al.  Inhibition of return in microsaccades , 2004, Experimental Brain Research.

[9]  H. Barlow Eye movements during fixation , 1952, The Journal of physiology.

[10]  James J. Clark,et al.  Microsaccades as an overt measure of covert attention shifts , 2002, Vision Research.

[11]  Ralf Engbert,et al.  Crossmodal coupling of oculomotor control and spatial attention in vision and audition , 2005, Experimental Brain Research.

[12]  H. J. Muller,et al.  Reflexive and voluntary orienting of visual attention: time course of activation and resistance to interruption. , 1989, Journal of experimental psychology. Human perception and performance.

[13]  Ralf Engbert,et al.  Fixational eye movements predict the perceived direction of ambiguous apparent motion. , 2008, Journal of vision.

[14]  Reinhold Kliegl,et al.  Toward a Perceptual-Span Theory of Distributed Processing in Reading: A Reply to Rayner, Pollatsek, Drieghe, Slattery, and Reichle (2007). , 2007 .

[15]  R. Kliegl,et al.  Shortening and prolongation of saccade latencies following microsaccades , 2006, Experimental Brain Research.

[16]  J A Foley-Fisher,et al.  A relationship between vernier acuity and intersaccadic interval. , 1968, Optica acta.

[17]  R. W. Ditchburn The function of small saccades , 1980, Vision Research.

[18]  Hugo Quené,et al.  On multi-level modeling of data from repeated measures designs: a tutorial , 2004, Speech Commun..

[19]  Jeremy M. Wolfe,et al.  Microsaccades and Attention: Does a Weak Correlation Make an Index? , 2007 .

[20]  J. Wolfe,et al.  Fixational Eye Movements Are Not an Index of Covert Attention , 2007, Psychological science.

[21]  K. Donner,et al.  Modelling the effect of microsaccades on retinal responses to stationary contrast patterns , 2007, Vision Research.

[22]  Ralf Engbert,et al.  Microsaccades Are an Index of Covert Attention , 2007, Psychological science.

[23]  H. Deubel,et al.  Threshold perception and saccadic eye movements , 1986, Biological Cybernetics.

[24]  Xoana G. Troncoso,et al.  Microsaccades Counteract Visual Fading during Fixation , 2005, Neuron.

[25]  David L. Sheinberg,et al.  Fixational eye movements are not affected by abrupt onsets that capture attention , 2002, Vision Research.

[26]  Hadley Wickham,et al.  Reshaping Data with the reshape Package , 2007 .

[27]  Ralf Engbert,et al.  Microsaccades uncover the orientation of covert attention , 2003, Vision Research.

[28]  M. Posner,et al.  Orienting of Attention* , 1980, The Quarterly journal of experimental psychology.

[29]  B. L. Zuber,et al.  Saccadic suppression: elevation of visual threshold associated with saccadic eye movements. , 1966, Experimental neurology.

[30]  D L Sheinberg,et al.  PSYCHOLOGICAL SCIENCE Research Article ATTENTIONAL ENHANCEMENT OPPOSITE A PERIPHERAL FLASH REVEALED USING CHANGE BLINDNESS , 2022 .

[31]  L. Riggs,et al.  Involuntary motions of the eye during monocular fixation. , 1950, Journal of experimental psychology.

[32]  R. W. Ditchburn,et al.  Involuntary eye movements during fixation , 1953, The Journal of physiology.

[33]  Reinhold Kliegl,et al.  Preview benefit and parafoveal-on-foveal effects from word n + 2. , 2007, Journal of experimental psychology. Human perception and performance.

[34]  M. Turatto,et al.  Microsaccadic response during inhibition of return in a target–target paradigm , 2007, Vision Research.

[35]  P. Rabbitt,et al.  Reflexive and voluntary orienting of visual attention: time course of activation and resistance to interruption , 1989 .

[36]  M. Posner,et al.  Attention and the detection of signals. , 1980, Journal of experimental psychology.

[37]  Stephen J. Johnston,et al.  Fixation Region Overlap: A quantitative method for the analysis of fixational eye movement patterns , 2009 .

[38]  Ralf Engbert,et al.  Toward a model of microsaccade generation: the case of microsaccadic inhibition. , 2008, Journal of vision.

[39]  Nikos K. Logothetis,et al.  The Distribution of Microsaccade Directions Need Not Reveal the Location of Attention: Reply to Rolfs, Engbert, and Kliegl , 2004 .

[40]  R. Kliegl,et al.  Microsaccade-induced prolongation of saccade latencies depends on microsaccade amplitude , 2008 .

[41]  M. Turatto,et al.  Are you ready? I can tell by looking at your microsaccades , 2006, Neuroreport.

[42]  Ralf Engbert,et al.  Microsaccade dynamics during covert attention , 2005, Vision Research.

[43]  M. Posner,et al.  Components of visual orienting , 1984 .

[44]  H. Gerrits,et al.  The influence of stimulus movements on perception in parafoveal stabilized vision. , 1974, Vision research.

[45]  M. Crossland,et al.  The effect of retinal image slip on peripheral visual acuity. , 2008, Journal of vision.