What is top-down about contingent capture?

In the present study, we explored the mechanisms involved in the contingent capture phenomenon, using a variant of the classic precuing paradigm of Folk, Remington, and Johnston (1992). Rather than keeping the target fixed over a whole block of trials (as has traditionally been done with contingent capture experiments), we encouraged participants to adopt a top-down set before each trial. If top-down attentional set determines which property captures attention, as is claimed by the contingent capture hypothesis, one would expect that only properties that match the top-down set would capture attention. We showed that even though participants knew what the target would be on the upcoming trial, both relevant and irrelevant properties captured attention (Experiment 1). An intertrial analysis (Experiments 1 and 2) showed that previous contingent capture findings may, to a large extent, be explained by intertrial priming. In addition, when participants were further forced into adopting the required top-down set (Experiments 3 and 4), irrelevant cues were suppressed, suggesting that top-down control might operate through disengagement of attention from the location of a property that does not match top-down goals. The present findings suggest that top-down control and intertrial priming make their own distinct contributions to the contingent capture phenomenon.

[1]  K. Cave,et al.  Top-down and bottom-up attentional control: On the nature of interference from a salient distractor , 1999, Perception & psychophysics.

[2]  J. Theeuwes,et al.  Abrupt onsets capture attention independent of top-down control settings , 2008, Perception & psychophysics.

[3]  Christian N L Olivers,et al.  Attentional guidance by salient feature singletons depends on intertrial contingencies. , 2003, Journal of experimental psychology. Human perception and performance.

[4]  Eric Ruthruff,et al.  Attentional capture with rapidly changing attentional control settings. , 2010, Journal of experimental psychology. Human perception and performance.

[5]  L. R. Peterson,et al.  Short-term retention of individual verbal items. , 1959, Journal of experimental psychology.

[6]  H. Müller,et al.  Cross-trial priming in visual search for singleton conjunction targets: Role of repeated target and distractor features , 2006, Perception & psychophysics.

[7]  E. Van der Burg,et al.  The role of spatial and nonspatial information in visual selection. , 2007, Journal of experimental psychology. Human perception and performance.

[8]  Eric Ruthruff,et al.  Contingent attentional capture by top-down control settings: converging evidence from event-related potentials. , 2008, Journal of experimental psychology. Human perception and performance.

[9]  Christian N. L. Olivers,et al.  Intertrial priming stemming from ambiguity: A new account of priming in visual search , 2006 .

[10]  Joseph Krummenacher,et al.  Expectancies modulate attentional capture by salient color singletons , 2008, Vision Research.

[11]  J. Wolfe,et al.  Changing your mind: on the contributions of top-down and bottom-up guidance in visual search for feature singletons. , 2003, Journal of experimental psychology. Human perception and performance.

[12]  Jan Theeuwes,et al.  Temporal and Spatial Characteristics of Preattentive and Attentive Processing , 1995 .

[13]  J. Theeuwes Cross-dimensional perceptual selectivity , 1991, Perception & psychophysics.

[14]  K. Nakayama,et al.  Priming of pop-out: I. Role of features , 1994, Memory & cognition.

[15]  DeLiang Wang,et al.  The role of priming in conjunctive visual search , 2002, Cognition.

[16]  M. D’Esposito Working memory. , 2008, Handbook of clinical neurology.

[17]  A. Kingstone,et al.  Unmasking the inhibition of return phenomenon , 1999, Perception & psychophysics.

[18]  R. Remington,et al.  Selectivity in distraction by irrelevant featural singletons: evidence for two forms of attentional capture. , 1998, Journal of experimental psychology. Human perception and performance.

[19]  H J Müller,et al.  Visual search for singleton feature targets within and across feature dimensions , 1995, Perception & psychophysics.

[20]  Jan Theeuwes,et al.  The role of cueing in attentional capture , 2008 .

[21]  S. Yantis,et al.  Uniqueness of abrupt visual onset in capturing attention , 1988, Perception & psychophysics.

[22]  R. Klein,et al.  Inhibition of return , 2000, Trends in Cognitive Sciences.

[23]  David E. Irwin,et al.  Influence of attentional capture on oculomotor control. , 1999, Journal of experimental psychology. Human perception and performance.

[24]  Bryan R. Burnham,et al.  Displaywide visual features associated with a search display’s appearance can mediate attentional capture , 2007, Psychonomic bulletin & review.

[25]  Dominique Lamy,et al.  Effects of task relevance and stimulus-driven salience in feature-search mode. , 2004, Journal of experimental psychology. Human perception and performance.

[26]  H. Müller,et al.  Attentional capture by salient color singleton distractors is modulated by top-down dimensional set. , 2009, Journal of experimental psychology. Human perception and performance.

[27]  Martin Eimer,et al.  The N2pc component and its links to attention shifts and spatially selective visual processing. , 2008, Psychophysiology.

[28]  J. Theeuwes Perceptual selectivity is task dependent: evidence from selective search. , 1990, Acta psychologica.

[29]  J. Theeuwes Top-down search strategies cannot override attentional capture , 2004, Psychonomic bulletin & review.

[30]  Martin Eimer,et al.  Involuntary Attentional Capture is Determined by Task Set: Evidence from Event-related Brain Potentials , 2008, Journal of Cognitive Neuroscience.

[31]  R W Remington,et al.  The structure of attentional control: contingent attentional capture by apparent motion, abrupt onset, and color. , 1994, Journal of experimental psychology. Human perception and performance.

[32]  J. Theeuwes,et al.  On the time course of top-down and bottom-up control of visual attention , 2000 .

[33]  R. Rauschenberger Attentional capture by auto- and allo-cues , 2003, Psychonomic bulletin & review.

[34]  J. Theeuwes Perceptual selectivity for color and form , 1992, Perception & psychophysics.

[35]  J. Theeuwes,et al.  Irrelevant singletons capture attention: Evidence from inhibition of return , 2002, Perception & psychophysics.

[36]  Charles L. Folk,et al.  Bottom-up priming of top-down attentional control settings , 2008 .

[37]  J. Theeuwes Stimulus-driven capture and attentional set: selective search for color and visual abrupt onsets. , 1994, Journal of experimental psychology. Human perception and performance.

[38]  D. E. Irwin,et al.  Our Eyes do Not Always Go Where we Want Them to Go: Capture of the Eyes by New Objects , 1998 .

[39]  Ulrich Ansorge,et al.  Can intertrial priming account for the similarity effect in visual search? , 2009, Vision Research.

[40]  Jan Theeuwes,et al.  Target uncertainty does not lead to more distraction by singletons: Intertrial priming does , 2005, Perception & psychophysics.

[41]  J. Theeuwes,et al.  Electrophysiological Evidence of the Capture of Visual Attention , 2006, Journal of Cognitive Neuroscience.

[42]  J. C. Johnston,et al.  Involuntary covert orienting is contingent on attentional control settings. , 1992, Journal of experimental psychology. Human perception and performance.

[43]  J. Theeuwes,et al.  Detecting the presence of a singleton involves focal attention , 2008, Psychonomic bulletin & review.

[44]  A. Hillstrom Repetition effects in visual search , 2000, Perception & psychophysics.

[45]  E. Macaluso,et al.  Neural basis for priming of pop-out during visual search revealed with fMRI. , 2007, Cerebral cortex.

[46]  Stefanie I. Becker,et al.  Irrelevant singletons in pop-out search: attentional capture or filtering costs? , 2007, Journal of experimental psychology. Human perception and performance.

[47]  Pierre Jolicoeur,et al.  Tracking the Location of Visuospatial Attention in a Contingent Capture Paradigm , 2008, Journal of Cognitive Neuroscience.

[48]  C. Olivers,et al.  On the dissociation between compound and present/absent tasks in visual search: Intertrial priming is ambiguity driven , 2006 .

[49]  S. Yantis,et al.  Abrupt visual onsets and selective attention: evidence from visual search. , 1984, Journal of experimental psychology. Human perception and performance.

[50]  Dominique Lamy,et al.  Attentional capture in singleton-detection and feature-search modes. , 2003, Journal of experimental psychology. Human perception and performance.

[51]  J. Theeuwes,et al.  Visual search for featural singletons: No top-down modulation, only bottom-up priming , 2006 .