Abstract
Two experiments examined any inhibition-of-return (IOR) effects from auditory cues and from preceding auditory targets upon reaction times (RTs) for detecting subsequent auditory targets. Auditory RT was delayed if the preceding auditory cue was on the same side as the target, but was unaffected by the location of the auditorytarget from the preceding trial, suggesting that response inhibition for the cue may have produced its effects. By contrast, visual detection RT was inhibited by the ipsilateral presentation of a visual target on the preceding trial. In a third experiment, targets could be unpredictably auditory or visual, and no peripheral cues intervened. Both auditory and visual detection RTs were now delayed following an ipsilateral versus contralateral target in either modality on the preceding trial, even when eye position was monitored to ensure central fixation throughout. These data suggest that auditory target—target IOR arises only when target modality is unpredictable. They also provide the first unequivocal evidence for cross-modal IOR, since, unlike other recent studies (e.g., Reuter-Lorenz, Jha, & Rosenquist, 1996; Tassinari & Berlucchi, 1995; Tassinari & Campara, 1996), the present cross-modal effects cannot be explained in terms of response inhibition for the cue. The results are discussed in relation to neurophysiological studies and audiovisual links in saccade programming.
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Abrams, R. A., &Dobkin, R. S. (1994a). The gap effect and inhibition of return: Interactive effects on eye movement latencies.Experimental Brain Research,98, 483–487.
Abrams, R. A., &Dobkin, R. S. (1994b). Inhibition of return: Effects of attentional cuing on eye movement latencies.Journal of Experimental Psychology: Human Perception & Performance,20, 467–477.
Alho, K., Woods, D. L., Algazi, A., &Näätänen, R. (1992). Intermodal selective attention: II. Effects of attentional load on processing of auditory and visual stimuli in central space.Electroen-cephalography & Clinical Neurophysiology,82, 356–368.
Berlucchi, G., Tassinari, G., Marzi, C. A., &Di Stefano, M. (1989). Spatial distribution of the inhibitory effect of peripheral noninformative cues on simple reaction time to non-fixated visual targets.Neuropsychologia,27, 201–221.
Bonnel, A.-M., Possamaï, C.-A., &Schmitt, M. (1987). Early modulation of visual input: A study of attentional strategies.The Quarterly Journal of Experimental Psychology,39A, 757–776.
Cheal, M., Chastain, G., & Lyon, D. R. (in press). Inhibition of return in visual identification tasks.Visual Cognition.
Chelazzi, L., Biscaldi, M., Corbetta, M., Peru, A., Tassinari, G., &Berlucchi, G. (1995). Oculomotor activity and visual spatial attention.Behavioral & Brain Science,71, 81–88.
Dean, P., Redgrave, P., Sahibzada, N., &Tsuji, K. (1986). Head and body movements produced by electrical stimulation of superior colliculus in rats: Effects of interruption of crossed tectoreticulospinal pathway.Neuroscience,19, 367–380.
De Jong, R., Liang, C.-C., &Lauber, E. (1994). Conditional and unconditional automaticity: A dual-process model of effects of spatial stimulus-response correspondence.Journal of Experimental Psychology: Human Perception & Performance,20, 731–750.
Dinnerstein, A. J., &Zlotogura, P. (1968). Intermodal perception of temporal order and motor skills: Effects of age.Perceptual & Motor Skills,26, 987–1000.
Dorrjs, M. C., &Munoz, D. P. (1995). A neural correlate for the gap effect on saccadic reaction-times in monkey.Journal of Neurophysiology,73, 2558–2562.
Engelken, E. J., &Stevens, K. W. (1989). Saccadic eye movements in response to visual, auditory and bisensory stimuli.Aviation, Space & Environmental Medicine,60, 763–768.
Farah, M. J., Wong, A. B., Monheit, M. A., &Morrow, L. A. (1989). Parietal lobe mechanisms of spatial attention: Modality-specific or supramodal?Neuropsychologia,27, 461–470.
Fendrich, R., Hughes, H. C., &Reuter-Lorenz, P. A. (1991). Fixation-point offsets reduce the latency of saccades to acoustic targets.Perception & Psychophysics,50, 383–387.
Ferstl, R., Hanewinkel, R., &Krag, P. (1994). Is the modality-shift effect specific for schizophrenia patients?Schizophrenia Bulletin,2, 367–373.
Frick, R. W. (1995). Accepting the null hypothesis.Memory & Cognition,23, 132–138.
Fuller, J. H. (1992). Comparison of head movement strategies among mammals. In A. Berthoz, P. P. Vidal, & W. Graf (Eds.),The headneck sensory motor system (pp. 101–112). New York: Oxford University Press.
Grantyn, A., &Grantyn, R. (1982). Axonal patterns and sites of termination of cat superior colliculus neurons projecting in the tectobulbo-spinal tract.Experimental Brain Research,46, 243–265.
Grantyn, R. (1988). Gaze control through superior colliculus: Structure and function. In J. A. Büttner-Ennever (Ed.),Neuroanatomy of the oculomotor system (pp. 273–322). Amsterdam: Elsevier, North-Holland.
Guitton, D. (1991). Control of saccadic eye and gaze movements by the superior colliculus and basal ganglia. In R. H. S. Carpenter (Ed.),Eye movements (pp. 244–276). Houndsmill, U.K.: Macmillan.
Hackley, S. A., Woldorff, M., &Hillyard, S. A. (1990). Crossmodal selective attention effects on retinal, myogenic, brainstem, and cerebral evoked potentials.Psychophysiology,27, 195–208.
Harvey, N. (1980). Non-informative effects of stimuli functioning as cues.Quarterly Journal of Experimental Psychology,32, 413–425.
Hughes, H. C., Reuter-Lorenz, P. A., Nozawa, G., &Fendrich, R. (1994). Visual-auditory interactions in sensorimotor processing. Saccades versus manual responses.Journal of Experimental Psychology: Human Perception & Performance,20, 131–153.
Jay, M. F., &Sparks, D. L. (1984). Auditory receptive fields in primate superior colliculus shift with changes in eye position.Nature,309, 345–347.
Jay, M. F., &Sparks, D. L. (1987). Sensorimotor integration in the primate superior colliculus: 1. Motor convergence.Journal of Neurophysiology,57, 22–34.
Jay, M. F., &Sparks, D. L. (1990). Localization of auditory and visual targets for the initiation of saccadic eye movements. In M. A. Berkley & W. Stebbins (Eds.),Comparative perception: Vol. I. Basic mechanisms (pp. 351–374). New York: Wiley.
Kahneman, D., Treisman, A., &Gibbs, B. J. (1992). The reviewing of object files: Object-specific integration of information.Cognitive Psychology,24, 175–219.
Klein, R. M., Brennan, M., & Gilani, A. (1987, November).Covert cross-modality orienting of attention in space. Paper presented at the annual meeting of the Psychonomic Society, Seattle.
Klein, R. M., &Taylor, T. L. (1994). Categories of cognitive inhibition with reference to attention. In D. Dagenbach & T. H. Carr (Eds.),Inhibitory processes in attention, memory, and language (pp. 113–150). New York: Academic Press.
Knudsen, E. I., Knudsen, P. F., &Masino, T. (1993). Parallel pathways mediating both sound localization and gaze control in the forebrain and midbrain of the barn owl.Journal of Neuroscience,13, 2837–2852.
Lee, C., Chung, S., Kim, J., &Park, J. (1991). Auditory facilitation of visually-guided saccades.Society for Neuroscience Abstracts,17, 862.
Lueck, C. J., Crawford, T. J., Savage, C. J., &Kennard, C. (1990). Auditory-visual interaction in the generation of saccades in man.Experimental Brain Research,82, 149–157.
Maylor, E. A. (1985). Facilitatory and inhibitory components of orienting in visual space. In M. I. Posner & O. S. M. Marin (Eds.),Attention and performance XI (pp. 189–204). Hillsdale, NJ: Erlbaum.
Maylor, E. A., &Hockey, R. (1985). Inhibitory components of externally controlled covert orienting in visual space.Journal of Experimental Psychology: Human Perception & Performance,11, 777–787.
Mowrer, O. H., Rayman, N. N., &Bliss, E. L. (1940). Preparatory set (expectancy)—An experimental demonstration of its “central” locus.Journal of Experimental Psychology,26, 357–372.
Näätänen, R. (1990). The role of attention in auditory information processing as revealed by event-related potentials and other brain measures of cognitive function.Behavioral & Brain Sciences,13, 201–288.
Neill, W. T., Valdes, L. A., Terry, K. M., &Gorfein, D. S. (1992). Persistence of negative priming: II. Evidence from episodic trace retrieval.Journal of Experimental Psychology: Learning, Memory, & Cognition,5, 993–1000.
Niemi, P., &Näätänen, R. (1981). Foreperiod and simple reaction time.Psychological Bulletin,89, 133–162.
Peck, C. K. (1987). Visual-auditory interactions in cat superior colliculus: Their role in control of gaze.Brain Research,420, 162–166.
Perrott, D. R., Saberi, K., Brown, K., &Strybel, T. Z. (1990). Auditory psychomotor coordination and visual search performance.Perception & Psychophysics,48, 214–226.
Pontefract, A., & Klein, R. M. ( 1988).Assessing inhibition of return with simple and choice reaction time. Unpublished manuscript.
Posner, M. I. (1978).Chronometrie explorations of mind. Hillsdale, NJ: Erlbaum.
Posner, M. I., &Cohen, Y. (1984). Components of visual orienting. In H. Bouma & D. G. Bouwhuis (Eds.),Attention and performance X: Control of language processes (pp. 531–556). Hillsdale, NJ: Erlbaum.
Posner, M. I., Cohen, Y., Choate, L. S., Hockey, R., &Maylor, E. (1984). Sustained concentration: Passive filtering or active orienting? In S. Kornblum & J. Requin (Eds.),Preparatory states and processes (pp. 49–65). Hillsdale, NJ: Erlbaum.
Posner, M. I., Rafal, R. D., Choate, L. S., &Vaughan, J. (1985). Inhibition of return: Neural basis and function.Cognitive Neuropsychology,2, 211–228.
Pratt, J. (1995). Inhibition of return in a discrimination task.Psychonomic Bulletin & Review,2, 117–120.
Pumphrey, R. J. (1950). Hearing.Symposium of the Society for Experimental Biology: Physiological Mechanisms in Animal Behavior,4, 3–18.
Rafal, R. D., Calabresi, P. A., Brennan, C. W., &Sciolto, T. K. (1989). Saccade preparation inhibits reorienting to recently attended locations.Journal of Experimental Psychology: Human Perception & Performance,15, 673–685.
Rafal, R. [D.], Egly, R., &Rhodes, D. (1994). Effects of inhibition of return on voluntary and visually guided saccades.Canadian Journal of Experimental Psychology,48, 284–300.
Rafal, R. [D.], &Henik, A. (1994). The neurology of inhibition. Integrating controlled and automatic processes. In D. Dagenbach & T. H. Carr (Eds.),Inhibitory processes in attention, memory, and language (pp. 1–51). New York: Academic Press.
Reuter-Lorenz, P. A., Jha, A. P., &Rosenquist, J. N. (1996). What is inhibited by inhibition of return?Journal of Experimental Psychology: Human Perception & Performance,22, 367–378.
Reuter-Lorenz, P. A., &Rosenquist, J. N. (1996). Auditory cues and inhibition of return: The importance of oculomotor activation.Experimental Brain Research,112, 119–126.
Rizzolatti, G., Camarda, R., Grupp, L. A., &Pisa, M. (1974). Inhibitory effect of remote visual stimuli on visual responses of cat superior colliculus: Spatial and temporal factors.Journal of Neurophysiology,37, 1262–1275.
Simon, J. R. (1990). The effects of an irrelevant directional cue on human information processing. In R. W. Proctor & T. G. Reeve (Eds.),Stimulus-response compatibility (pp. 31 -86). Amsterdam: Elsevier, North-Holland.
Simon, J. R., Craft, J. L., &Webster, J. B. (1971). Reaction time to onset and offset of lights and tones: Reactions toward the changed element in a two-element display.Journal of Experimental Psychology,89, 197–202.
Sokolov, E. N. (1963).Perception and the conditioned reflex. New York: Macmillan.
Sparks, D. L., &Mays, L. E. (1981). The role of the monkey superior colliculus in the control of saccadic eye movements: A current perspective. In A. Fuchs & W. Becker (Eds.),Progress in oculomotor research (pp. 137–144). Amsterdam: Elsevier, North-Holland.
Spence, C. J., &Driver, J. (1994). Covert spatial orienting in audition: Exogenous and endogenous mechanisms.Journal of Experimental Psychology: Human Perception & Performance,20, 555–574.
Spence, C. [J.], &Driver, J. (1997a). Audiovisual links in exogenous covert spatial orienting.Perception & Psychophysics,59, 1–22.
Spence, C. [J.], &Driver, J. (1997b). On measuring selective attention to an expected sensory modality.Perception & Psychophysics,59, 389–403.
Spence, C. [J.], & Driver, J. (in press). Inhibition of return following an auditory cue: The role of central reorienting events.Experimental Brain Research.
Spence, C. [J.], Driver, J., & Rogers, R. ( 1997).Is there an attentional component to the modality-shift effect? Manuscript in preparation.
Spence, C. [J.], Nicholls, M. E. R., Gillespie, N., & Driver, J. (1997).Cross-modal inhibition of return between auditory, visual, and tactile stimuli. Manuscript submitted for publication.
Stein, B. E., &Meredith, M. A. (1993).The merging of the senses. Cambridge, MA: MIT Press.
Stein, B., Meredith, M. A., &Wallace, M. T. (1993). The visually-responsive neuron and beyond: Multisensory integration in cat and monkey.Progress in Brain Research,95, 79–90.
Tassinari, G., Aglioti, S., Chelazzi, L., Marzi, C. A., &Berlucchi, G. (1987). Distribution in the visual field of the costs of voluntarily allocated attention and of the inhibitory after-effects of covert orienting.Neuropsychologia,25, 55–71.
Tassinari, G., Aglioti, S., Chelazzi, L., Peru, A., &Berlucchi, G. (1994). Do peripheral non-informative cues induce early facilitation of target detection?Vision Research,34, 179–189.
Tassinari, G., &Berlucchi, G. (1993). Sensory and attentional components of slowing of manual reaction time to non-fixated visual targets by ipsilateral primes.Vision Research,33, 1525–1534.
Tassinari, G., &Berlucchi, G. (1995). Covert orienting to noninformative cues: Reaction time studies.Behavioural Brain Research,71, 101–112.
Tassinari, G., Biscaldi, M., Marzi, C. A., &Berlucchi, G. (1989). Ipsilateral inhibition and contralateral facilitation of simple reaction time to non-foveal visual targets from non-informative visual cues.Acta Psychologica,70, 267–291.
Tassinari, G., &Campara, D. (1996). Consequences of covert orienting to non-informative stimuli of different modalities: A unitary mechanism?Neuropsychologia,34, 235–245.
Terry, K. M., Valdes, L. A., &Neill, W. T. (1994). Does “inhibition of return” occur in discrimination tasks?Perception & Psychophysics,55, 279–286.
Thompson, G. C, &Masterton, R. B. (1978). Brain stem auditory pathways involved in reflexive head orientation to sound.Journal of Neurophysiology,41, 1183–1202.
Vaughan, J. (1984). Saccades directed at previously attended locations in space. In A. J. Gale & C. W. Johnson (Eds.),Theoretical and applied aspects of eye movement research (pp. 143–150). Amsterdam: Elsevier, North-Holland.
Ward, L. M. (1994). Supramodal and modality-specific mechanisms for stimulus-driven shifts of auditory and visual attention.Canadian Journal of Experimental Psychology,48, 242–259.
Whittington, D. A., Hepp-Reymond, M. C, &Flood, W. (1981). Eye and head movements to auditory targets.Experimental Brain Research,41, 358–363.
Woods, D. L., Alho, K., &Algazi, A. (1992). Intermodal selective attention 1: Effects on event-related potentials to lateralized auditory and visual stimuli.Electroencephalography & Clinical Neurophysiology,82, 341–355.
Wright, R. D., & Richard, C. (1993, November).Inhibition-of-return of visual attention to multiple location cues. Paper presented at the annual meeting of the Psychonomic Society, Washington, DC.
Wright, R. D., & Richard, C. (1994).Inhibition-of-return at multiple locations following simultaneous and sequential location cues. Paper presented at the annual meeting of the Psychonomic Society, St. Louis.
Wright, R. D., & Richard, C. M. (in press). Inhibition of return is not reflexive. In R. D. Wright (Ed.),Visual attention. New York: Oxford University Press.
Wurtz, R. H., &Albano, J. E. (1980). Visual-motor function of primate superior colliculus.Annual Review of Neuroscience,3, 189–226.
Wurtz, R. H., Richmond, B. J., &Judge, S. J. (1980). Vision during saccadic eye movements. III. Visual interactions in monkey superior colliculus.Journal of Neurophysiology,43, 1168–1181.
Wynn, V. T. (1977). Simple reaction time—Evidence for two auditory pathways to the brain.Journal of Auditory Research,17, 175–181.
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This research was supported by grants from the Medical Research Council (U.K.) and Wellcome Trust, plus a Junior Research Fellowship to CS. from St. John’s College, Cambridge.
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Spence, C., Driver, J. Auditory and audiovisual inhibition of return. Perception & Psychophysics 60, 125–139 (1998). https://doi.org/10.3758/BF03211923
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DOI: https://doi.org/10.3758/BF03211923