Abstract
Three experiments investigated cross-modal links between touch, audition, and vision in the control of covert exogenous orienting. In the first two experiments, participants made speeded discrimination responses (continuous vs. pulsed) for tactile targets presented randomly to the index finger of either hand. Targets were preceded at a variable stimulus onset asynchrony (150,200, or 300 msec) by a spatially uninformative cue that was either auditory (Experiment 1) or visual (Experiment 2) on the same or opposite side as the tactile target. Tactile discriminations were more rapid and accurate when cue and target occurred on the same side, revealing cross-modal covert orienting. In Experiment 3, spatially uninformative tactile cues were presented prior to randomly intermingled auditory and visual targets requiring an elevation discrimination response (up vs. down). Responses were significantly faster for targets in both modalities when presented ipsilateral to the tactile cue. These findings demonstrate that the peripheral presentation of spatially uninforrnative auditory and visual cues produces cross-modal orienting that affects touch, and that tactile cues can also produce cross-modal covert orienting that affects audition and vision.
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Aitkin, L. (1986).The auditory midbrain. Clifton, NJ: Humana.
Berlucchi, G., Tassinari, G., Marzi, C. A., &Di Stefano, M. (1989). Spatial distribution of the inhibitory effect of peripheral non-informative cues on simple reaction time to non-fixated visual targets.Neuropsychologia,27, 201–221.
Bernstein, I. H., &Edelstein, B. A. (1971). Effects of some variations in auditory input upon visual choice reaction time.Journal of Experimental Psychology,87, 241–247.
Bradshaw, J. L., Howard, M. J., Pierson, J. M., Phillips, J., &Bradshaw, J. A. (1992). Effects of expectancy and attention in vibrotactile choice reaction time tasks.Quarterly Journal of Experimental Psychology,44A, 509–528.
Briand, K. A., &Klein, R. M. (1986). Is Posner’s “beam” the same as Treisman’s “glue”? On the relation between visual orienting and feature integration theory.Journal of Experimental Psychology: Human Perception & Performance,13, 228–241.
Buchtel, H. A., &Butter, C. M. (1988). Spatial attention shifts: Implications for the role of polysensory mechanisms.Neuropsychologia,26, 499–509.
Buchtel, H. A., Butter, C. M., &Ayvasik, B. (1996). Effects of stimulus source and intensity on covert orientation to auditory stimuli.Neuropsychologia,34, 979–985.
Butter, C. M. (1987). Varieties of attention and disturbances of attention: A neuropsychological analysis. In M. Jeannerod (Ed.),Neurophysiological and neuropsychological aspects of spatial neglect (pp. 1–23). Amsterdam: Elsevier: North-Holland.
Butter, C. M., Buchtel, H. A., &Santucci, R. (1989). Spatial attentional shifts: Further evidence for the role of polysensory mechanisms using visual and tactile stimuli.Neuropsychologia,27, 1231–1240.
Cheal, M., &Lyon, D. R. (1991). Central and peripheral precuing of forced-choice discrimination.Quarterly Journal of Experimental Psychology,43A, 859–880.
Cheal, M., Chastain, G., & Lyon, D. R. (in press). Inhibition of return in visual identification tasks.Visual Cognition.
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.
Driver, J., &Grossenbacher, P. G. (1996). Multimodal spatial constraints on tactile selective attention. In T. Innui & J. L. McClelland (Eds.),Attention and performance XVI (pp. 209–235). Cambridge, MA: MIT Press.
Driver, J., &Spence, C. J. (1994). Spatial synergies between auditory and visual attention. In C. Umiltà & M. Moscovitch (Eds.),Attention and performance XV: Conscious and nonconscious information processing (pp. 311–331). Cambridge, MA: MIT Press.
Driver, J., & Spence, C. J. (in press). Crossmodal links in spatial attention.Proceedings of the Royal Society of London: Series B.
Duncan, J. (1980). The demonstration of capacity limitation.Cognitive Psychology,12, 75–96.
Elliott, R. (1968). Simple visual and simple auditory reaction time: A comparison.Psychonomic Science,10, 335–336.
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.
Givotti, G., &Peri, G. (1963). Selective effects of monoauricular stimulation upon extrafoveal visual acuity.Archivio di Psicologia, Neurologia i Psichiatria,24, 246–288.
Grantyn, A., &Grantyn, R. (1982). Axonal patterns and sites of termination of cat superior colliculus neurons projecting in the tecto-bulbo-spinal tract.Experimental Brain Research,46, 243–265.
Graziano, M. S. A., &Gross, C. G. (1993). A bimodal map of space: Somatosensory receptive fields in the macaque putamen with corresponding visual receptive fields.Experimental Brain Research,97, 96–109.
Graziano, M. S. [A.], &Gross, C. G. (1995). The representation of extrapersonal space: A possible role for bimodal, visual-tactile neurons. In M. S. Gazzaniga (Ed.),The cognitive neurosciences (pp. 1021–1034). Cambridge, MA: MIT Press.
Groh, J. M., &Sparks, D. L. (1996). Saccades to somatosensory targets: 2. Motor convergence in primate superior colliculus.Journal of Neurophysiology,75, 428–438.
Harrison, J. M., &Irving, R. (1966). Visual and nonvisual auditory systems in mammals.Science,154, 738–743.
Harvey, N. (1980). Non-informative effects of stimuli functioning as cues.Quarterly Journal of Experimental Psychology,32, 413–425.
Heffner, R. S., &Heffner, H. E. (1992a). Evolution of sound localization in mammals. In D. B. Webster, R. R. Fay, & A. N. Popper (Eds),The evolutionary biology of hearing (pp. 691–715). New York: Springer-Verlag.
Heffner, R. S., &Heffner, H. E. (1992b). Visual factors in sound localization in mammals.Journal of Comparative Neurology,317, 219–232.
Honoré, J. (1982). Posture oculaire et attention selective à des stimuli cutanes [Eye position and selective attention to cutaneous stimuli].Neuropsychologia,20, 727–730.
Honoré, J., Bourdeaud’hui, M., &Sparrow, L. (1989). Reduction of cutaneous reaction time by directing eyes towards the source of stimulation.Neuropsychologia,27, 367–371.
Hugdahl, K., &Nordby, H. (1994). Electrophysiological correlates to cued attentional shifts in the visual and auditory modalities.Behavioral & Neural Biology,62, 21–32.
Jonides, J. (1981). Voluntary versus automatic control over the mind’s eye’s movement. In J. Long & A. Baddeley (Eds.),Attention and performance IX (pp. 187–203). Hillsdale, NJ: Erlbaum.
Kilgard, M. P., &Merzenich, M. M. (1995). Anticipated stimuli across skin.Nature,373, 663.
King, A. J. (1993). A map of auditory space in the mammalian brain: Neural computation and development.Experimental Physiology,78, 559–590.
Klein, R. M. (1994). Perceptual-motor expectancies interact with covert visual orienting under conditions of endogenous but not exogenous control.Canadian Journal of Experimental Psychology,48, 167–181.
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., Kingstone, A., &Pontefract, A. (1992). Orienting of visual attention. In K. Rayner (Ed.),Eye movements and visual cognition: Scene perception and reading (pp. 46–65). New York: Springer-Verlag.
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 fore-brain and midbrain of the barn owl.Journal of Neuroscience,13, 2837–2852.
Kustov, A. A., &Robinson, D. L. (1996). Shared neural control of attentional shifts and eye movements.Nature,384, 74–77.
Laberge, D. (1995).Attentional processing: The brain’s art of mindfulness. Cambridge, MA: Harvard University Press.
Ladavas, E. (1993). Shifts of attention in patients with visual neglect. In I. H. Robertson & J. C. Marshall (Eds.),Unilateral neglect: Clinical and experimental studies (pp. 193–209). Hillsdale, NJ: Erlbaum.
Lambert, A., &Hockey, R. (1991). Peripheral visual changes and spatial attention.Acta Psychologica,76, 149–163.
Larmande, P., &Cambier, J. (1981). Influence de l’etat d’activation hémisphérique sur le phénomène d’extinction sensitive chez 10 patients atteints de lesions hémisphériques droites [Effects of the state of activation of the cerebral hemisphere on sensory excitation: A study of 10 patients with right hemisphere lesions].Revue Neurologique,137, 285–290.
Maruyama, K. (1961). “contralateral relationship” between the ears and the halves of the visual field in the sensory interaction.Tohoku Psychologica Folia,19, 81–92.
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.
Miller, J. O. (1988). A warning about median reaction time.Journal of Experimental Psychology: Human Perception & Performance,14, 539–543.
Mondor, T. A., &Zatorre, R. J. (1995). Shifting and focussing auditory spatial attention.Journal of Experimental Psychology: Human Perception & Performance,21, 387–409.
Niemi, P., &Näätänen, R. (1981). Foreperiod and simple reaction time.Psychological Bulletin,89, 133–162.
O’Donnell, C, &Pratt, J. (1996). Inhibition of return along the path of attention.Canadian Journal of Experimental Psychology,50, 386–392.
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).Chronometric 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., Davidson, B. J., & Nissen, M. J. (1976, November).The process of stimulus detection. Paper presented at the annual meeting of the Psychonomic Society, St. Louis.
Posner, M. I., Nissen, M. J., &Ogden, W. C. (1978). Attended and unattended processing modes: The role of set for spatial location. In H. I. Pick & I. J. Saltzman (Eds.),Modes ofperceiving and processing information (pp. 137–157). Hillsdale, NJ: Erlbaum.
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., Henik, A., &Smith, J. (1991). Extrageniculate contributions to reflex visual orienting in normal humans: A temporal hemifield advantage.Journal of Cognitive Neuroscience,3, 322–328.
Reuter-Lorenz, P. A., Jha, A. P., &Rosenquist, J. N. (1995). What is inhibited in 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.
Rhodes, G. (1987). Auditory attention and the representation of spatial information.Perception & Psychophysics,42, 1–14.
Riggio, L., Gawryszewski, L. D. G., &Umiltà, C. (1986). What is crossed in crossed-hand effect?Acta Psychologica,62, 89–100.
Rizzolatti, G. C, Scandolara, M., Matelli, M., &Gentilucci, M. (1981). Afferent properties of periarcuate neurons in macaque monkeys: II. Visual responses.Behavioural Brain Research,2, 147–163.
Robinson, D. L., &Kertzman, C. (1995). Covert orienting of attention in macaques. III. Contributions of the superior colliculus.Journal of Neurophysiology,74, 713–721.
Rutschmann, J., &Link, R. (1964). Perception of temporal order of stimuli differing in sense mode and simple reaction time.Perceptual & Motor Skills,18, 345–352.
Sathian, K., &Burton, H. (1991). The role of spatially selective attention in the tactile perception of texture.Perception & Psychophysics,50, 237–248.
Scharf, B., Quigley, S., Aoki, C, Peachey, N., &Reeves, A. (1987). Focused auditory attention and frequency selectivity.Perception & Psychophysics,42, 215–223.
Schmidt, W. C. (1996). “Inhibition of return” without visual input.Neuropsychologia,34, 943–952.
Schröger, E., &Eimer, M. (1997). Endogenous covert spatial orienting in audition: “Cost-benefit” analyses of reaction times and event-related potentials.Quarterly Journal of Experimental Psychology,50A, 457–474.
Schröger, E., Wolff, C, Tschakert, R., & Schubo, A. (in press). Involuntary attentional capture versus voluntary attentional orienting in audition. In H.-J. Heinze, T. F. Münte, & G. R. Mangun (Eds.),Mapping cognition in time and space.
Shaw, M. L. (1984). Division of attention among spatial locations: A fundamental difference between detection of letters and detection of luminance increments. In H. Bouma & D. G. Bouwhuis (Eds.),Attention and performance X: Control of language processes (pp. 277–296). Hillsdale, NJ: Erlbaum.
Simon, J. R., &Craft, J. L. (1970). Effects of an irrelevant auditory stimulus on visual choice reaction time.Journal of Experimental Psychology,86, 272–274.
Sparks, D. L. (1988). Neural cartography: Sensory and motor maps in the superior colliculus.Brain, Behavior, & Evolution,31, 49–56.
Spence, C. J., &Driver, J. (1994). Covert spatial orienting in audition: Exogenous and endogenous mechanisms facilitate sound localization.Journal of Experimental Psychology: Human Perception & Performance,20, 555–574.
Spence, C. [J.], &Driver, J. (1996). Audiovisual links in endogenous covert spatial attention.Journal of Experimental Psychology: Human Perception & Performance,22, 1005–1030.
Spence, C. [J.], &Driver, J. (1997). Audiovisual links in exogenous covert spatial orienting.Perception & Psychophysics,59, 1–22.
Spence, C. [J.], &Driver, J. (1998a). Auditory and audiovisual inhibition of return.Perception & Psychophysics,60, 125–139.
Spence, C. [J.], &Driver, J. (1998b). Inhibition of return following an auditory cue: The role of central reorienting events.Experimental Brain Research,118, 352–360.
Spence, C. J., & Driver, J. (1998c).Cross-modal inhibition of return between auditory, visual, and tactile stimuli. Manuscript submitted for publication.
Stein, B. E. (1984). Multimodal representation in the superior colliculus and optic tectum. In H. Vanegas (Ed.),Comparative neurology of the optic tectum (pp. 819–841). New York: Plenum.
Stein, B. E., &Meredith, M. A. (1993).The merging of the senses. Cambridge, MA: MIT Press.
Stein, B. E., Wallace, M. T., &Meredith, M. A. (1995). Neural mechanisms mediating attention and orientation to multisensory cues. In M. S. Gazzaniga (Ed.),The cognitive neurosciences (pp. 683–702). Cambridge, MA: MIT Press.
Stein, J. F. (1989). Representation of egocentric space in the posterior parietal cortex.Quarterly Journal of Experimental Physiology,74, 583–606.
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. (1995). Covert orienting to non-informative cues: Reaction time studies.Behavioural Brain Research,71, 101–112.
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.
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.
Ward, L. M., McDonald, J. A., & Golestani, N. (in press). Cross-modal control of attention shifts. In R. Wright (Ed.),Visual attention. New York: Oxford University Press.
Whang, K. C., Burton, H., &Shulman, G. L. (1991). Selective attention in vibrotactile tasks: Detecting the presence and absence of amplitude change.Perception & Psychophysics,50, 157–165.
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This research was supported by grants from the Australian Research Council, from St. John’s College, Cambridge, from the Medical Research Council (U.K.), and from the Wellcome Trust (U.K.).
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Spence, C., Nicholls, M.E.R., Gillespie, N. et al. Cross-modal links in exogenous covert spatial orienting between touch, audition, and vision. Perception & Psychophysics 60, 544–557 (1998). https://doi.org/10.3758/BF03206045
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DOI: https://doi.org/10.3758/BF03206045