Abstract
In two experiments, implicit and explicit tests were used to investigate the lateralization of odor memory. Odors were at all times presented monorhinically. At test, odors were presented to either the ipsi- or the contralateral side of the nostril used for inspection. In Experiment 1, participants were first primed to a set of odors. At test, response latencies for odor identification were measured. The results were that priming odors tested via the left but not the right nostril were identified faster than control odors. In Experiment 2, a similar design probed episodic recognition memory. Memory performance did not differ between the left and right nostrils, but the measures of response latency favored the right side. The study demonstrates that it is possible to tap differences in memory performance between the cerebral hemispheres through monorhinic presentation of odors in healthy persons, and that these differences depend on the test nostril rather than the inspection nostril.
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Brand, G., Millot, J.-M., &Henquell, D. (2001). Complexity of olfactory lateralization processes revealed by functional imaging: A review.Neuroscience & Biobehavioral Reviews,25, 159–166.
Broman, D. A., Olsson, M. J., &Nordin, S. (2001). Lateralization of olfactory cognitive functions: Effects of rhinal side of stimulation.Chemical Senses,26, 1187–1192.
Bromley, S. M., &Doty, R. L. (1995). Odor recognition memory is better under bilateral than unilateral test conditions.Cortex,31, 25–40.
Cain, W. S., de Wijk, R., Luleijan, C., Schiet, F., &See, L.-C. (1998). Odor identification: Perceptual and semantic dimensions.Chemical Senses,23, 309–323.
Cain, W. S., Stevens, J. C., Nickou, C. M., Giles, A., Johnston, I., &Garcia-Medina, M. R. (1995). Life-span development of odor identification, learning, and olfactory sensitivity.Perception,24, 1457–1472.
Carroll, M., Byrne, B., &Kirsner, K. (1985). Autobiographical memory and perceptual learning: A developmental study using picture recognition, naming latency, and perceptual identification.Memory & Cognition,13, 273–279.
Cave, C. B., &Squire, L. R. (1992). Intact and long-lasting repetition priming in amnesia.Journal of Experimental Psychology: Learning, Memory, & Cognition,18, 509–520.
Cronin-Golomb, A., Gabrieli, J. D. E., &Keane, M. M. (1996). Implicit and explicit memory retrieval within and across the disconnected cerebral hemispheres.Neuropsychology,10, 254–262.
Dade, L. A., Jones-Gotman, M., Zatorre, R. J., &Evans, A. C. (1998). Human brain function during odor encoding and recognition. In C. Murphy (Ed.),Olfaction and taste XII: An international symposium (Annals of the New York Academy of Sciences, Vol. 855, pp. 572–574). New York: New York Academy of Sciences.
de Wijk, R. A., &Cain, W. S. (1994). Odor identification by name and by edibility: Life-span development and safety.Human Factors,36, 182–187.
de Wijk, R. A., Schab, F. R., &Cain, W. S. (1995). Odor identification. In F. R. Schab & R. G. Crowder (Eds.),Memory for odors (pp. 71–92). Mahwah, NJ: Erlbaum.
Donaldson, W. (1996). The role of decision processes in remembering and knowing.Memory & Cognition,24, 523–533.
Doty, R. L., Bromley, S. M., Moberg, P. J., &Hummel, T. (1997). Laterality in human nasal chemoreception. In S. Christman (Ed.),Cerebral asymmetries in sensory and perceptual processing (pp. 497–452). Amsterdam: Elsevier, North-Holland.
Engen, T. (1987). Remembering odors and their names.American Scientist,75, 497–503.
Engen, T. (1991).Odor sensation and memory. New York: Praeger.
Eskenazi, B., Cain, W. S., Novelly, R. A., &Mattson, R. (1986). Odor perception in temporal lobe epilepsy patients with and without temporal lobectomy.Neuropsychologia,24, 553–562.
Gordon, H. W., &Sperry, R. W. (1969). Lateralization of olfactory perception in the surgically separated hemispheres of man.Neuropsychologia,7, 111–120.
Graf, P., &Schacter, D. L. (1985). Implicit and explicit memory for new associations in normal and amnesic patients.Journal of Experimental Psychology: Learning, Memory, & Cognition,11, 501–518.
Hayman, C. A., &Tulving, E. (1989). Contingent dissociation between recognition and fragment completion: The method of triangulation.Journal of Experimental Psychology: Learning, memory, & Cognition,15, 228–240.
Herz, R. S., &Engen, T. (1996). Odor memory: Review and analysis.Psychonomic Bulletin & Review,3, 300–313.
Herz, R. S., McCall, C., &Cahill, L. (1999). Hemispheric lateralization in the processing of odor pleasantness versus odor names.Chemical Senses,24, 691–695.
Homewood, J., &Stevenson, R. J. (2001). Differences in naming accuracy of odors presented to the left and right nostril.Biological Psychology,58, 65–73.
Hummel, T., Pauli, E., Stefan, H., Kettenmann, B., Schüler, P., &Kobal, G. (1995). Chemosensory event-related potentials in patients with temporal lobe epilepsy.Epilepsia,36, 79–85.
Jacoby, L. L. (1991). A process dissociation framework: Separating automatic from intentional uses of memory.Journal of Memory & Language,30, 513–541.
Johnson, C. J., Paivio, A., &Clark, J. M. (1996). Cognitive components of picture naming.Psychological Bulletin,120, 113–139.
Jones-Gotman, M., &Zatorre, R. J. (1993). Odor recognition memory in humans: Role of right temporal and orbitofrontal regions.Brain & Cognition,22, 182–198.
Jones-Gotman, M., Zatorre, R. J., Evans, A. C., &Meyer, E. (1993). Functional activation of right hippocampus during an olfactory recognition memory task.Society for Neuroscience Abstracts,19, 1002.
Kobal, G., &Kettenmann, B. (2000). Olfactory functional imaging and physiology.International Journal of Psychophysiology,36, 157–163.
Kobal, G., Van Toller, S., &Hummel, T. (1989). Is there directional smelling?Experentia,45, 130–132.
Koenig, O., Bourron, G., &Royet, J.-P. (2000). Evidence of separate perceptive and semantic memories for odors: A priming experiment.Chemical Senses,25, 703–708.
Kosslyn, S. M., Koenig, O., Barrett, A., Cave, C. B., Tang, J., &Gabrieli, J. D. (1989). Evidence for two types of spatial representations: Hemispheric specialization for categorical and coordinate relations.Journal of Experimental Psychology: Human Perception & Performance,15, 723–735.
Köster, E. P., Degel, J., &Piper, D. (2002). Proactive and retroactive interference in implicit odor memory.Chemical Senses,27, 191–206.
Larsson, M. (1997). Semantic factors in episodic recognition of common odors in early and late adulthood: A review.Chemical Senses,22, 623–633.
La Voie, D., &Light, L. L. (1994). Adult age differences in repetition priming: A meta-analysis.Psychology & Aging,9, 539–553.
Lyman, B. J., &McDaniel, M. A. (1990). Memory for odors and odor names: Modalities of elaboration and imagery.Journal of Experimental Psychology: Learning, Memory, & Cognition,16, 656–664.
Macmillan, N. A., &Creelman, D. C. (1991).Detection theory: A user’s guide. Cambridge: Cambridge University Press.
Marsolek, C. J., Kosslyn, S. M., &Squire, L. R. (1992). Form-specific visual priming in the right cerebral hemisphere.Journal of Experimental Psychology: Learning, Memory, & Cognition,18, 492–508.
Martinez, B. A., Cain, W. S., de Wijk, R. A., Spencer, D. D., Novelly, R. A., &Sass, J. S. (1993). Olfactory functioning before and after temporal lobe resection for intractable seizures.Neuropsychology,7, 351–363.
McCauley, C., Parmalee, C. M., Sperber, R. D., &Carr, T. H. (1980). Early extraction of meaning from pictures and its relation to conscious identification.Journal of Experimental Psychology: Human Perception & Performance,6, 265–276.
Mitchell, D. B., &Brown, A. S. (1988). Persistent repetition priming in picture naming and its dissociation from recognition memory.Journal of Experimental Psychology: Learning, Memory, & Cognition,14, 213–222.
Murphy, C., Cain, W. S., Gilmore, M. M., &Skinner, R. B. (1991). Sensory and semantic factors in recognition memory for odors and graphic stimuli: Elderly vs. young persons.American Journal of Psychology,104, 161–192.
Ochsner, K. N., &Kosslyn, S. M. (1999). The cognitive neuroscience approach. In B. M. Bly & D. E. Rumelhart (Eds.),Cognitive science (pp. 319–365). San Diego: Academic Press.
Oldfield, R. C. (1971). The assessment and analysis of handedness: The Edinburgh Inventory.Neuropsychologica,9, 97–114.
Olsson, M. J., &Cain, W. S. (1995). Early temporal events in odor identification [Abstract].Chemical Senses,20, 753.
Olsson, M. J., Faxbrink, M., &Jönsson, F. U. (2002). Repetition priming in odor memory. In C. Rouby, B. Schaal, D. Dubois, R. Gervais, & A. Holey (Eds.),Olfaction, taste, and cognition (pp. 246–260). Cambridge: Cambridge University Press.
Olsson, M. J., &Fridén, M. (2001). Evidence of odor priming: Edibility judgments are differently primed between the hemispheres.Chemical Senses,26, 117–123.
Ostergaard, A. L. (1993). Dissociations between word priming effects in normal subjects and patients with memory disorders: Multiple memory systems or retrieval?Quarterly Journal of Experimental Psychology,47A, 331–364.
Pollack, I., &Norman, D. A. (1964). A non-parametric analysis of recognition experiments.Psychonomic Science,1, 125–126.
Potter, H., &Butters, N. (1980). An assessment of olfactory deficits in patients with damage to prefrontal cortex.Neuropsychologia,18, 621–628.
Rabin, M., &Cain, W. S. (l984). Odor recognition: Familiarity, identifiability, and encoding consistency.Journal of Experimental Psychology: Learning, Memory, & Cognition,l0, 316–325.
Ratcliff, R., &McKoon, G. (1995). Bias in the priming of object decision.Journal of Experimental Psychology: Learning, memory, & Cognition,21, 754–767.
Royet, J. P., Hudry, J., Zald, D. H., Godinot, D., Grégoire, M. C., Lavenne, F., Costes, N., &Holley, A. (2001). Functional neuroanatomy of different olfactory judgments.NeuroImage,13, 506–519.
Royet, J. P., Zald, D. H., Versace, R., Costes, N., Lavenne, F., Koenig, O., &Gervais, R. (2000). Emotional responses to pleasant and unpleasant olfactory, visual, and auditory stimuli: A positron emission tomography study.Journal of Neuroscience,20, 7752–7759.
Savic, I., &Gulyas, B. (2000). PET shows that odors are processed both ipsilaterally and contralaterally to the stimulated nostril.Neuro-Report,11, 2861–2866.
Savic, I., Gulyas, B., Larsson, M., &Roland, P. (2000). Olfactory functions are mediated by parallel and hierarchical processing.Neuron,26, 735–745.
Schab, F. R., &Crowder, R. [G.]. (1995). Implicit measures of odor memory. In F. R. Schab & R. G. Crowder (Eds.),Memory for odors (pp. 71–92). Mahwah, NJ: Erlbaum.
Schacter, D. L. (1994). Priming and multiple memory systems: Perceptual mechanisms of implicit memory. In D. L. Schacter & E. Tulving (Eds.),Memory systems (pp. 233–268). Cambridge, MA: MIT Press.
Tonoike, M., Yamaguchi, M., Kaetso, I., Kida, H., Seo, R., &Koizuka, I. (1998). Ipsilateral dominance of human olfactory activated centers estimated from event-related magnetic fields measured by 122-channel whole-head neuromagnetometer using odorant stimuli synchronized respirations. In C. Murphy (Ed.),Olfaction and taste XII: An international symposium (Annals of the New York Academy of Sciences, Vol. 855, pp. 579–590). New York: New York Academy of Sciences.
Wise, P. M., & Cain, W. S. (2002, July).Toward an index of ability to transmit semantic information regarding odors. Paper presented at the meeting of the European Chemoreception Research Organisation, Erlangen, Germany.
Zatorre, R. J., &Jones-Gotman, M. (1990). Right-nostril advantage for discrimination of odors.Perception & Psychophysics,47, 526–531.
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This research was supported by grants from the Bank of Sweden Tercentenary Foundation (1998-0270) and the National Institute on Deafness and Other Communication Disorders (DC-00284), National Institutes of Health.
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Olsson, M.J., Cain, W.S. Implicit and explicit memory for odors: Hemispheric differences. Memory & Cognition 31, 44–50 (2003). https://doi.org/10.3758/BF03196081
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DOI: https://doi.org/10.3758/BF03196081