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Conscious olfaction: Content, function, and localization

Published online by Cambridge University Press:  24 November 2016

Bjorn Merker*
Affiliation:
Fjälkestadsv, 410-82, SE-29194, Kristianstad, Sweden. [email protected]

Abstract

The target article's emphasis on olfaction is a welcome reminder of the multimodal nature of conscious experience. Here, I explore the distinctive and even unique attributes of our sense of smell from the point of view of their bearing on and fit with a subcortical locus of sensory experience.

Type
Open Peer Commentary
Copyright
Copyright © Cambridge University Press 2016 

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References

Albrecht, J., Demmel, M., Schöpf, V., Kleemann, A. M., Kopietz, R., May, J., Schreder, T., Zernecke, R., Brückmann, H. & Wiesmann, M. (2011) Smelling chemosensory signals of males in anxious versus nonanxious condition increases state anxiety of female subjects. Chemical Senses 36:1927. doi:10.1093/chemse/bjq087.Google Scholar
Baars, B. J. (1997a) Contrastive phenomenology: A thoroughly empirical approach to consciousness. In: The nature of consciousness: Phiolosophical controversies, ed. Flanagan, O. J., Block, N. & Guzeldere, G., pp. 187202. MIT Press.Google Scholar
Boireau, N., Pinault, G., Kirsche, L. & MacLeod, P. (2000) Lateralization of vanillin odor perception by birhinal stimulation: Differential olfactometer method. In: Abstracts, ISOT/ECRO 2000 Congress: Proceedings of the 14th International Symposium on Olfaction and Taste (ISOT), July 20–24, 2000, Brighton, U.K. European Chemoreception Research Organisation (ECRO).Google Scholar
Carmichael, S. T., Clugnet, M.-C. & Price, J. L. (1994) Central olfactory connections in the macaque monkey. Journal of Comparative Neurology 346:403–34.CrossRefGoogle ScholarPubMed
Frasnelli, J., Charbonneau, G., Collignon, O. & Lepore, F. (2009) Odor localization and sniffing. Chemichal Senses 34:139–44.Google Scholar
Friedrich, R. W. (2011) Olfactory neuroscience: Beyond the bulb. Current Biology 21:R438–40. doi: 10.1016/j.cub.2011.04.036.CrossRefGoogle ScholarPubMed
Hummer, T. A. & McClintock, M. K. (2009) Putative human pheromone androstadienone attunes the mind specifically to emotional information. Hormones and Behavior 55:548–59. doi:10.1016/j.yhbeh.2009.01.002.Google Scholar
Insausti, R., Amaral, D. G. & Cowan, W. M. (1987) The entorhinal cortex of the monkey: Subcortical afferents. Journal of Comparative Neurology 264:396408.Google Scholar
Khan, R. M., Luk, C.-H., Flinker, A., Aggarwal, A., Lapid, H., Haddad, R. & Sobel, N. (2007) Predicting odor pleasantness from odorant structure: Pleasantness as a reflection of the physical world. Journal of Neuroscience 27:10015–23. doi:10.1523/JNEUROSCI.1158-07.2007.Google Scholar
Kobal, G., Van Toller, S. & Hummel, T. (1989) Is there directional smelling? Experientia 45:130–32.CrossRefGoogle ScholarPubMed
Kobayakawa, K., Kobayakawa, R., Matsumoto, H., Oka, Y., Imai, T., Ikawa, M., Okabe, M., Ikeda, T., Itohara, S., Kikusui, T., Mori, K. & Sakano, H. (2007) Innate versus learned odour processing in the mouse olfactory bulb. Nature 450:503508. doi:10.1038/nature06281.Google Scholar
Köster, E. P. (1971) Adaptation and cross-adaptation in olfaction. Unpublished doctoral dissertation. University of Utrecht.Google Scholar
Köster, E. P. (2002) The specific characteristics of the sense of smell. In: Olfaction, taste and cognition, ed. Rouby, C., Schaal, B., Dubois, D., Gervais, R. & Holley, A., pp. 2743. Cambridge University Press.Google Scholar
Lundström, J. N., Boyle, J. A., Zatorre, J. C. & Jones-Gotman, M. (2008) Functional neuronal processing of body odors differs from that of similar common odors. Cerebral Cortex 18:1466–74. doi:10.1093/cercor/bhm178.CrossRefGoogle ScholarPubMed
Lundström, J. N. & Olsson, M. J. (2005) Subthreshold amounts of social odorant affect mood, but not behavior, in heterosexual women when tested by a male, but not a female, experimenter. Biological Psychology 70:197204.CrossRefGoogle Scholar
Mandairon, N., Poncelet, J., Bensafi, M. & Didier A. (2009) Humans and mice express similar olfactory preferences. PLoS ONE 4(1):e4209. doi:10.1371/journal.pone.0004209.Google Scholar
Mast, T. G. & Samuelsen, C. L. (2009) Human pheromone detection by the vomeronasal organ: Unnecessary for mate selection? Chemical Senses 34:529–31. doi:10.1093/chemse/bjp030.Google Scholar
McClintock, M. K. (2000) Human pheromones: Primers, releasers, signalers, or modulators? In: Reproduction in context, ed. Wallen, K. & Schneider, J. E., pp. 355420. MIT Press.Google Scholar
Merker, B. (2007) Consciousness without a cerebral cortex: A challenge for neuroscience and medicine. Behavioral and Brain Sciences 30(1):6381; discussion 81–134.Google Scholar
Merker, B. (2012) From probabilities to percepts: A subcortical “global best estimate buffer” as locus of phenomenal experience. In: Being in time: Dynamical models of phenomenal experience, ed. Shimon, E., Tomer, F. & Zach, N., pp. 37–80. John Benjamins.Google Scholar
Merker, B. (2013a) Body and world as phenomenal contents of the brain's reality model. In: The unity of mind, brain and world: Current perspectives on a science of consciousness, ed. Pereira, A. Jr. & Lehmann, D., pp. 7–42. Cambridge University Press.Google Scholar
Mori, K. & Sakano, H. (2011) How is the olfactory map formed and interpreted in the mammalian brain? Annual Review of Neuroscience 34:467–99. doi:10.1146/annurev-neuro-112210-112917.CrossRefGoogle Scholar
Morsella, E. (2005) The function of phenomenal states: Supramodular interaction theory. Psychological Review 112:1000–21.Google Scholar
Mujica-Parodi, L. R., Strey, H. H., Frederick, B., Savoy, R., Cox, D., Botanov, Y., Tolkunov, D., Rubin, D. & Weber, J. (2009) Chemosensory cues to conspecific emotional stress activate amygdala in humans. PLoS ONE 4(7):e6415. doi:10.1371/journal.pone.0006415.Google Scholar
Nishizumi, H. & Sakano, H. (2015) Decoding and deorphanizing an olfactory map. Nature Neuroscience 18:1432–33.Google Scholar
Plailly, J., Howard, J. D., Gitelman, D. R. & Gottfried, J. A. (2008) Attention to odor modulates thalamocortical connectivity in the human brain. Journal of Neuroscience 28:5257–67. doi:10.1523/JNEUROSCI.5607-07.2008.Google Scholar
Porter, J., Anand, T., Johnson, B., Khan, R. M. & Sobel, N. (2005) Brain mechanisms for extracting spatial information from smell. Neuron 47:581–92.Google Scholar
Saunders, R. C., Mishkin, M. & Aggleton, J. P. (2005) Projections from the entorhinal cortex, perirhinal cortex, presubiculum, and parasubiculum to the medial thalamus in macaque monkeys: Identifying different pathways using disconnection techniques. Experimental Brain Research 167:116. doi: 10.1007/s00221-005-2361-3.Google Scholar
Savic, I., Hedén-Blomqvist, E. & Berglund, H. (2009) Pheromone signal transduction in humans: What can be learned from olfactory loss. Human Brain Mapping 30:3057–65. doi: 10.1002/hbm.20727.CrossRefGoogle ScholarPubMed
Saxton, T. K., Lyndon, A., Little, A. C & Roberts, S. C. (2008) Evidence that androstadienone, a putative human chemosignal, modulates women's attributions of men's attractiveness. Hormones and Behavior 54:597601.Google Scholar
Sela, L. & Sobel, N. (2010) Human olfaction: A constant state of change-blindness. Experimental Brain Research 205:1329. doi: 10.1007/s00221-010-2348-6.Google Scholar
Sokolov, E. N. (1963) Higher nervous functions: The orienting reflex. Annual Review of Physiology 25:545–80. doi:10.1146/annurev.ph.25.030163.002553.CrossRefGoogle ScholarPubMed
Stevenson, R. J. (2009) Phenomenal and access consciousness in olfaction. Consciousness and Cognition 18:1004–17. doi:10.1016/j.concog.2009.09.005.CrossRefGoogle ScholarPubMed
Wilke, M., Mueller, K.-M. & Leopold, D. A. (2009) Neural activity in the visual thalamus reflects perceptual suppression. Proceedings of the National Academy of Sciences USA 106:9465–70. doi:10.1073/pnas.0900714106.Google Scholar
Wyart, C., Webster, W. W., Chen, J. H., Wilson, S. R., McClary, A., Khan, R. M. & Sobel, N. (2007) Smelling a single component of male sweat alters levels of cortisol in women. Journal of Neuroscience 27:1261–65. doi:10.1523/JNEUROSCI.4430-06.2007.Google Scholar
Wysocki, C. J. & Preti, G. (2004) Facts, fallacies, fears, and frustrations with human pheromones. Anatomical Record (Part A) 281A:1201–11.Google Scholar
Yeshurun, Y. & Sobel, N. (2010) An odor is not worth a thousand words: From multidimensional odors to unidimensional odor objects. Annual Review of Psychology 61:219–41. doi:10.1146/annurev.psych.60.110707.163639.CrossRefGoogle ScholarPubMed
Zhou, W. & Chen, D. (2009) Fear-related chemosignals modulate recognition of fear in ambiguous facial expressions. Psychological Science 20:177–83. doi: 10.1111/j.1467-9280.2009.02263.x.Google Scholar