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Cognition does not affect perception: Evaluating the evidence for “top-down” effects

Published online by Cambridge University Press:  20 July 2015

Chaz Firestone
Affiliation:
Department of Psychology, Yale University, New Haven, CT [email protected]
Brian J. Scholl
Affiliation:
Department of Psychology, Yale University, New Haven, CT [email protected]

Abstract

What determines what we see? In contrast to the traditional “modular” understanding of perception, according to which visual processing is encapsulated from higher-level cognition, a tidal wave of recent research alleges that states such as beliefs, desires, emotions, motivations, intentions, and linguistic representations exert direct, top-down influences on what we see. There is a growing consensus that such effects are ubiquitous, and that the distinction between perception and cognition may itself be unsustainable. We argue otherwise: None of these hundreds of studies – either individually or collectively – provides compelling evidence for true top-down effects on perception, or “cognitive penetrability.” In particular, and despite their variety, we suggest that these studies all fall prey to only a handful of pitfalls. And whereas abstract theoretical challenges have failed to resolve this debate in the past, our presentation of these pitfalls is empirically anchored: In each case, we show not only how certain studies could be susceptible to the pitfall (in principle), but also how several alleged top-down effects actually are explained by the pitfall (in practice). Moreover, these pitfalls are perfectly general, with each applying to dozens of other top-down effects. We conclude by extracting the lessons provided by these pitfalls into a checklist that future work could use to convincingly demonstrate top-down effects on visual perception. The discovery of substantive top-down effects of cognition on perception would revolutionize our understanding of how the mind is organized; but without addressing these pitfalls, no such empirical report will license such exciting conclusions.

Type
Target Article
Copyright
Copyright © Cambridge University Press 2016 

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References

Abrams, R. A. & Weidler, B. J. (2015) How far away is that? It depends on you: Perception accounts for the abilities of others. Journal of Experimental Psychology: Human Perception and Performance 41:904908.Google Scholar
Adelson, E. H. (2000) Lightness perception and lightness illusions. In: The new cognitive neurosciences, second edition, ed. Gazzaniga, M., pp. 339–51. MIT Press.Google Scholar
Alter, A. L. & Balcetis, E. (2011) Fondness makes the distance grow shorter: Desired locations seem closer because they seem more vivid. Journal of Experimental Social Psychology 47:1621.Google Scholar
Anstis, S. (2002) Was El Greco astigmatic? Leonardo 35:208.CrossRefGoogle Scholar
Anton-Erxleben, K., Henrich, C. & Treue, S. (2007) Attention changes perceived size of moving visual patterns. Journal of Vision 7(5):19.Google Scholar
Balcetis, E. (2016) Approach and avoidance as organizing structures for motivated distance perception. Emotion Review 8:115–28.CrossRefGoogle Scholar
Balcetis, E. & Dunning, D. (2006) See what you want to see: Motivational influences on visual perception. Journal of Personality and Social Psychology 91:612–25.CrossRefGoogle ScholarPubMed
Balcetis, E. & Dunning, D. (2010) Wishful seeing: More desired objects are seen as closer. Psychological Science 21:147–52.CrossRefGoogle ScholarPubMed
Balcetis, E., Dunning, D. & Granot, Y. (2012) Subjective value determines initial dominance in binocular rivalry. Journal of Experimental Social Psychology 48:122–29.Google Scholar
Banerjee, P., Chatterjee, P. & Sinha, J. (2012) Is it light or dark? Recalling moral behavior changes perception of brightness. Psychological Science 23:407409.Google Scholar
Bannert, M. M. & Bartels, A. (2013) Decoding the yellow of a gray banana. Current Biology 23(22):2268–72.CrossRefGoogle Scholar
Bhalla, M. & Proffitt, D. R. (1999) Visual-motor recalibration in geographical slant perception. Journal of Experimental Psychology: Human Perception and Performance 25:1076–96.Google ScholarPubMed
Blake, R. & Sekuler, R. (2005) Perception, fifth edition. McGraw-Hill.Google Scholar
Bouvier, S. & Treisman, A. (2010) Visual feature binding requires reentry. Psychological Science 21:200204.Google Scholar
Bruner, J. S. (1957) On perceptual readiness. Psychological Review 64:123–52.CrossRefGoogle ScholarPubMed
Bruner, J. S. & Goodman, C. C. (1947) Value and need as organizing factors in perception. Journal of Abnormal and Social Psychology 42:3344.CrossRefGoogle ScholarPubMed
Bruner, J. S., Postman, L. & Rodrigues, J. (1951) Expectation and the perception of color. The American Journal of Psychology 64(2):216–27.CrossRefGoogle ScholarPubMed
Bubl, E., Kern, E., Ebert, D., Bach, M. & Tebartz van Elst, L. (2010) Seeing gray when feeling blue? Depression can be measured in the eye of the diseased. Biological Psychiatry 68:205208.CrossRefGoogle ScholarPubMed
Cañal-Bruland, R., Pijpers, J. R. R. & Oudejans, R. R. D. (2010) The influence of anxiety on action-specific perception. Anxiety, Stress and Coping 23:353–61.Google Scholar
Cañal-Bruland, R., Zhu, F. F., van der Kamp, J. & Masters, R. S. W. (2011) Target-directed visual attention is a prerequisite for action-specific perception. Acta Psychologica 136:285–89.CrossRefGoogle ScholarPubMed
Carrasco, M., Ling, S. & Read, S. (2004) Attention alters appearance. Nature Neuroscience 7:308–13.Google Scholar
Carter, L. F. & Schooler, K. (1949) Value, need, and other factors in perception. Psychological Review 56:200207.Google Scholar
Caruso, E. M., Mead, N. L. & Balcetis, E. (2009) Political partisanship influences perception of biracial candidates' skin tone. Proceedings of the National Academy of Sciences USA 106:20168–73.Google Scholar
Cave, K. R. & Bichot, N. P. (1999) Visuospatial attention: Beyond a spotlight model. Psychonomic Bulletin and Review 6:204–23.CrossRefGoogle ScholarPubMed
Changizi, M. A. & Hall, W. G. (2001) Thirst modulates a perception. Perception 30:1489–97.Google Scholar
Chen, H. & Scholl, B. J. (2013) Congruence with items held in visual working memory boosts invisible stimuli into awareness: Evidence from motion-induced blindness [Abstract]. Journal of Vision 13(9):808.CrossRefGoogle Scholar
Churchland, P. M. (1988) Perceptual plasticity and theoretical neutrality: A reply to Jerry Fodor. Philosophy of Science 55:167–87.CrossRefGoogle Scholar
Churchland, P. S., Ramachandran, V. S. & Sejnowski, T. J. (1994) A critique of pure vision. In: Large-scale neuronal theories of the brain, ed. Koch, C. & Davis, J., pp. 2360. MIT Press.Google Scholar
Clark, A. (2013) Whatever next? Predictive brains, situated agents, and the future of cognitive science. Behavioral and Brain Sciences 36(3):181204.Google Scholar
Clerkin, E. M., Cody, M. W., Stefanucci, J. K., Proffitt, D. R. & Teachman, B. A. (2009) Imagery and fear influence height perception. Journal of Anxiety Disorders 23:381–86.Google Scholar
Cohen, M. A., Alvarez, G. A. & Nakayama, K. (2011) Natural-scene perception requires attention. Psychological Science 22:1165–72.CrossRefGoogle ScholarPubMed
Cole, S., Balcetis, E. & Dunning, D. (2012) Affective signals of threat increase perceived proximity. Psychological Science 24:3440.Google Scholar
Cole, S., Balcetis, E. & Zhang, S. (2013) Visual perception and regulatory conflict: Motivation and physiology influence distance perception. Journal of Experimental Psychology: General 142:1822.CrossRefGoogle ScholarPubMed
Collins, A. M. & Loftus, E. F. (1975) A spreading-activation theory of semantic processing. Psychological Review 82:407–28.Google Scholar
Collins, J. A. & Olson, I. R. (2014) Knowledge is power: How conceptual knowledge transforms visual cognition. Psychonomic Bulletin and Review 21:843–60.Google Scholar
Cooper, A. D., Sterling, C. P., Bacon, M. P. & Bridgeman, B. (2012) Does action affect perception or memory? Vision Research 62:235–40.Google Scholar
Coren, S. & Enns, J. T. (1993) Size contrast as a function of conceptual similarity between test and inducers. Perception and Psychophysics 54:579–88.Google Scholar
Correll, J., Wittenbrink, B., Crawford, M. T. & Sadler, M. S. (2015) Stereotypic vision: How stereotypes disambiguate visual stimuli. Journal of Personality and Social Psychology 108:219–33.CrossRefGoogle ScholarPubMed
den Daas, C., Häfner, M. & de Wit, J. (2013) Sizing opportunity: Biases in estimates of goal-relevant objects depend on goal congruence. Social Psychological and Personality Science 4:362–68.Google Scholar
Dils, A. T. & Boroditsky, L. (2010a) Processing unrelated language can change what you see. Psychonomic Bulletin and Review 17:882–88.CrossRefGoogle ScholarPubMed
Dils, A. T. & Boroditsky, L. (2010b) Visual motion aftereffect from understanding motion language. Proceedings of the National Academy of Sciences USA 107:16396–400.CrossRefGoogle ScholarPubMed
Doerrfeld, A., Sebanz, N. & Shiffrar, M. (2012) Expecting to lift a box together makes the load look lighter. Psychological Research 76:467–75.Google Scholar
Dunning, D. & Balcetis, E. (2013) Wishful seeing: How preferences shape visual perception. Current Directions in Psychological Science 22:3337.CrossRefGoogle Scholar
Durgin, F. H., Baird, J. A., Greenburg, M., Russell, R., Shaughnessy, K. & Waymouth, S. (2009) Who is being deceived? The experimental demands of wearing a backpack. Psychonomic Bulletin and Review 16:964–69.CrossRefGoogle Scholar
Durgin, F. H., DeWald, D., Lechich, S., Li, Z. & Ontiveros, Z. (2011a) Action and motivation: Measuring perception or strategies? Psychonomic Bulletin and Review 18(6):1077–82.CrossRefGoogle ScholarPubMed
Durgin, F. H., Klein, B., Spiegel, A., Strawser, C. J. & Williams, M. (2012) The social psychology of perception experiments: Hills, backpacks, glucose, and the problem of generalizability. Journal of Experimental Psychology: Human Perception and Performance 38:1582–95.Google Scholar
Erdelyi, M. (1974) A new look at the new look: Perceptual defense and vigilance. Psychological Review 81:125.Google Scholar
Firestone, C. (2013a) How “paternalistic” is spatial perception? Why wearing a heavy backpack doesn't – and couldn't – make hills look steeper. Perspectives on Psychological Science 8:455–73.Google Scholar
Firestone, C. (2013b) On the origin and status of the “El Greco fallacy.Perception 42:672–74.CrossRefGoogle ScholarPubMed
Firestone, C. & Scholl, B. J. (2014b) “Top-down” effects where none should be found: The El Greco fallacy in perception research. Psychological Science 25:3846.Google Scholar
Firestone, C. & Scholl, B. J. (2015a) Can you experience top-down effects on perception? The case of race categories and perceived lightness. Psychonomic Bulletin and Review 22:694700.Google Scholar
Firestone, C. & Scholl, B. J. (2015b) Enhanced visual awareness for morality and pajamas? Perception vs. memory in ‘top-down’ effects. Cognition 136:409–16.Google Scholar
Fodor, J. A. (1983) Modularity of mind: An essay on faculty psychology. MIT Press.Google Scholar
Fodor, J. A. (1984) Observation reconsidered. Philosophy of Science 51:2343.CrossRefGoogle Scholar
Fodor, J. A. (1988) A reply to Churchland's “Perceptual plasticity and theoretical neutrality.Philosophy of Science 55:188–98.Google Scholar
Gantman, A. P. & Van Bavel, J. J. (2014) The moral pop-out effect: Enhanced perceptual awareness of morally relevant stimuli. Cognition 132:2229.Google Scholar
Gao, T., McCarthy, G. & Scholl, B. J. (2010) The wolfpack effect: Perception of animacy irresistibly influences interactive behavior. Psychological Science 21:1845–53.Google Scholar
Geuss, M. N., Stefanucci, J. K., de Benedictis-Kessner, J. & Stevens, N. R. (2010) A balancing act: Physical balance, through arousal, influences size perception. Attention, Perception and Psychophysics 72:1890–902.Google Scholar
Gibson, J. J. (1979) The ecological approach to perception and action. Houghton Mifflin.Google Scholar
Gilbert, C. D. & Li, W. (2013) Top-down influences on visual processing. Nature Reviews Neuroscience 14(5):350–63.CrossRefGoogle ScholarPubMed
Gilchrist, A. & Jacobsen, A. (1984) Perception of lightness and illumination in a world of one reflectance. Perception 13:519.Google Scholar
Gobell, J. & Carrasco, M. (2005) Attention alters the appearance of spatial frequency and gap size. Psychological Science 16:644–51.Google Scholar
Goldstone, R. L. (1995) Effects of categorization on color perception. Psychological Science 6:298304.CrossRefGoogle Scholar
Goldstone, R. L. & Barsalou, L. W. (1998) Reuniting perception and conception. Cognition 65:231–62.Google Scholar
Goldstone, R. L., de Leeuw, J. R. & Landy, D. H. (2015) Fitting perception in and to cognition. Cognition 135:2429.CrossRefGoogle ScholarPubMed
Gray, R. (2013) Being selective at the plate: Processing dependence between perceptual variables relates to hitting goals and performance. Journal of Experimental Psychology: Human Perception and Performance 39:1124–42.Google ScholarPubMed
Gray, R. & Cañal-Bruland, R. (2015) Attentional focus, perceived target size, and movement kinematics under performance pressure. Psychonomic Bulletin and Review 22:16921700.CrossRefGoogle ScholarPubMed
Gray, R., Navia, J. A. & Allsop, J. (2014) Action-specific effects in aviation: What determines judged runway size? Perception 43:145–54.Google Scholar
Gregory, R. L. (1980) Perceptions as hypotheses. Philosophical Transactions of the Royal Society B: Biological Sciences 290(1038):181–97.Google ScholarPubMed
Hansen, T., Giesel, M. & Gegenfurtner, K. R. (2008) Chromatic discrimination of natural objects. Journal of Vision 8(2):119.Google Scholar
Hansen, T., Olkkonen, M., Walter, S. & Gegenfurtner, K. R. (2006) Memory modulates color appearance. Nature Neuroscience 9(11):1367–68. Available at: http://doi.org/10.1038/nn1794.CrossRefGoogle ScholarPubMed
Harber, K. D., Yeung, D. & Iacovelli, A. (2011) Psychosocial resources, threat, and the perception of distance and height: Support for the resources and perception model. Emotion 11:1080–90.Google Scholar
Helmholtz, H. (1866/1925) Handbuch der physiologischen optik. Leipzig: L. Voss. Translated as Treatise on physiological optics, vol. 3 (J. Southall, trans.). Optical Society of America. (Original work published in 1925).Google Scholar
Howard, I. P. & Rogers, B. J. (2002) Seeing in depth, vol. 2: Depth perception. University of Toronto Press.Google Scholar
Kanizsa, G. (1985) Seeing and thinking. Acta Psychologica 59:2333.Google Scholar
Kirsch, W. (2015) Impact of action planning on spatial perception: Attention matters. Acta Psychologica 156:2231.CrossRefGoogle ScholarPubMed
Kirsch, W. & Kunde, W. (2013a) Moving further moves things further away in visual perception: Position-based movement planning affects distance judgments. Experimental Brain Research 226:431–40.CrossRefGoogle ScholarPubMed
Kirsch, W. & Kunde, W. (2013b) Visual near space is scaled to parameters of current action plans. Journal of Experimental Psychology: Human Perception and Performance 39:1313–25.Google ScholarPubMed
Klein, G. S., Schlesinger, H. J. & Meister, D. E. (1951) The effect of personal values on perception: An experimental critique. Psychological Review 58:96–12.CrossRefGoogle ScholarPubMed
Klemfuss, N., Prinzmetal, W. & Ivry, R. B. (2012) How does language change perception: A cautionary note. Frontiers in Psychology 3:Article 78. Available at: http://doi.org/10.3389/fpsyg.2012.00078.CrossRefGoogle Scholar
Kosslyn, S. M. (2005) Mental images and the brain. Cognitive Neuropsychology 22:333–47.CrossRefGoogle ScholarPubMed
Krauskopf, J. & Gegenfurtner, K. (1992) Color discrimination and adaptation. Vision Research 32:2165–75.Google Scholar
Krpan, D. & Schnall, S. (2014) Too close for comfort: Stimulus valence moderates the influence of motivational orientation on distance perception. Journal of Personality and Social Psychology 107:978–93.CrossRefGoogle ScholarPubMed
Landau, A. N., Aziz-Zadeh, L. & Ivry, R. B. (2010) The influence of language on perception: Listening to sentences about faces affects the perception of faces. The Journal of Neuroscience 30(45):15254–61. Available at: http://doi.org/10.1523/JNEUROSCI.2046-10.2010.Google Scholar
Landis, D., Jones, J. M. & Reiter, J. (1966) Two experiments on perceived size of coins. Perceptual and Motor Skills 23:719–29.Google Scholar
Lazarus, R. S., Yousem, H. & Arenberg, D. (1953) Hunger and perception. Journal of Personality 21:312–28.Google Scholar
Le Bihan, D., Turner, R., Zeffiro, T. A., Cuénod, C. A., Jezzard, P. & Bonnerot, V. (1993) Activation of human primary visual cortex during visual recall: A magnetic resonance imaging study. Proceedings of the National Academy of Sciences USA 90:11802–805.CrossRefGoogle ScholarPubMed
Lee, D. H., Mirza, R., Flanagan, J. G. & Anderson, A. K. (2014) Optical origins of opposing facial expression actions. Psychological Science 25(3):745–52. Available at: http://doi.org/10.1177/0956797613514451.CrossRefGoogle ScholarPubMed
Léger, L. & Chauvet, E. (2015) When canary primes yellow: Effects of semantic memory on overt attention. Psychonomic Bulletin and Review 22:200205.CrossRefGoogle ScholarPubMed
Lessard, D. A., Linkenauger, S. A. & Proffitt, D. R. (2009) Look before you leap: Jumping ability affects distance perception. Perception 38:1863–66.Google Scholar
Levin, D. T. & Banaji, M. R. (2006) Distortions in the perceived lightness of faces: The role of race categories. Journal of Experimental Psychology: General 135:501–12.Google Scholar
Levin, D. T., Takarae, Y., Miner, A. G. & Keil, F. (2001) Efficient visual search by category: Specifying the features that mark the difference between artifacts and animals in preattentive vision. Perception and Psychophysics 63:676–97.CrossRefGoogle ScholarPubMed
Li, J.-L. & Yeh, S.-L. (2003) Do “Chinese and American see opposite apparent motions in a Chinese character”? Tse and Cavanagh (2000) replicated and revised. Visual Cognition 10:537–47.Google Scholar
Lo Sciuto, L. A. & Hartley, E. L. (1963) Religious affiliation and open-mindedness in binocular resolution. Perceptual and Motor Skills 17:427–30.Google Scholar
Long, G. M. & Toppino, T. C. (2004) Enduring interest in perceptual ambiguity: Alternating views of reversible figures. Psychological Bulletin 130:748–68.CrossRefGoogle ScholarPubMed
Lupyan, G. (2012) Linguistically modulated perception and cognition: The label-feedback hypothesis. Frontiers in Psychology 3:Article 54.Google Scholar
Lupyan, G. & Spivey, M. J. (2008) Perceptual processing is facilitated by ascribing meaning to novel stimuli. Current Biology 18:R410–12.CrossRefGoogle ScholarPubMed
Lupyan, G., Thompson-Schill, S. L. & Swingley, D. (2010) Conceptual penetration of visual processing. Psychological Science 21(5):682–91.Google Scholar
Lupyan, G. & Ward, E. J. (2013) Language can boost otherwise unseen objects into visual awareness. Proceedings of the National Academy of Sciences USA 110(35):14196–201. Available at: http://doi.org/10.1073/pnas.1303312110.Google Scholar
Machery, E. (2015) Cognitive penetrability: A no-progress report. In: The cognitive penetrability of perception: New philosophical perspectives, ed. Zeimbekis, J. & Raftopoulos, A.. Oxford University Press.Google Scholar
Macpherson, F. (2012) Cognitive penetration of colour experience: Rethinking the issue in light of an indirect mechanism. Philosophy and Phenomenological Research 84(1):2462.CrossRefGoogle Scholar
Maner, J. K., Kenrick, D. T., Becker, D. V., Robertson, T. E., Hofer, B., Neuberg, S. L., Delton, A.W., Butner, J. & Schaller, M. (2005) Functional projection: How fundamental social motives can bias interpersonal perception. Journal of Personality and Social Psychology 88:6378.Google Scholar
Masson, M. E. & Borowsky, R. (1998) More than meets the eye: Context effects in word identification. Memory and Cognition 26:1245–69.Google Scholar
Masters, R., Poolton, J. & van der Kamp, J. (2010) Regard and perceptions of size in soccer: Better is bigger. Perception 39:1290–95.Google Scholar
McCurdy, H. G. (1956) Coin perception studies and the concept of schemata. Psychological Review 63:160–68.CrossRefGoogle ScholarPubMed
Meier, B. P., Robinson, M. D., Crawford, L. E. & Ahlvers, W. J. (2007) When “light” and “dark” thoughts become light and dark responses: Affect biases brightness judgments. Emotion 7(2):366–76. Available at: http://doi.org/10.1037/1528-3542.7.2.366.Google Scholar
Meteyard, L., Bahrami, B. & Vigliocco, G. (2007) Motion detection and motion verbs language affects low-level visual perception. Psychological Science 18:1007–13.Google Scholar
Meyer, D. E. & Schvaneveldt, R. W. (1971) Facilitation in recognizing pairs of words: Evidence of a dependence between retrieval operations. Journal of Experimental Psychology 90:227–34.Google Scholar
Mitterer, H., Horschig, J. M., Müsseler, J. & Majid, A. (2009) The influence of memory on perception: It's not what things look like, it's what you call them. Journal of Experimental Psychology: Learning, Memory, and Cognition 35:1557–62.Google Scholar
Most, S. B., Scholl, B. J., Clifford, E. R. & Simons, D. J. (2005b) What you see is what you set: Sustained inattentional blindness and the capture of awareness. Psychological Review 112:217–42.Google Scholar
Nanay, B. (2014) Cognitive penetration and the gallery of indiscernibles. Frontiers in Psychology 5:1527.Google Scholar
New, J. J. & German, T. C. (2015) Spiders at the cocktail party: An ancestral threat that surmounts inattentional blindness. Evolution and Human Behavior 36:165–73.Google Scholar
Norris, D. (1995) Signal detection theory and modularity: On being sensitive to the power of bias models of semantic priming. Journal of Experimental Psychology: Human Perception and Performance 21:935–39.Google Scholar
Olkkonen, M., Hansen, T. & Gegenfurtner, K. R. (2008) Color appearance of familiar objects: Effects of object shape, texture, and illumination changes. Journal of Vision 8(5):116.Google Scholar
Pan, Y., Lin, B., Zhao, Y. & Soto, D. (2014) Working memory biasing of visual perception without awareness. Attention, Perception and Psychophysics 76:2051–62.CrossRefGoogle ScholarPubMed
Pascucci, D. & Turatto, M. (2013) Immediate effect of internal reward on visual adaptation. Psychological Science 24:1317–22.Google Scholar
Peterson, M. A. & Gibson, B. S. (1991) Directing spatial attention within an object: Altering the functional equivalence of shape descriptions. Journal of Experimental Psychology: Human Perception and Performance 17:170–82.Google Scholar
Peterson, M. A. & Gibson, B. S. (1993) Shape recognition inputs to figure-ground organization in three-dimensional displays. Cognitive Psychology 25:383–29.CrossRefGoogle Scholar
Peterson, M. A. & Gibson, B. S. (1994) Object recognition contributions to figure-ground organization: Operations on outlines and subjective contours. Perception and Psychophysics 56:551–64.Google Scholar
Pitts, S., Wilson, J. P. & Hugenberg, K. (2014) When one is ostracized, others loom: Social rejection makes other people appear closer. Social Psychological and Personality Science 5:550–57.CrossRefGoogle Scholar
Prinz, J. & Seidel, A. (2012) Alligator or squirrel: Musically induced fear reveals threat in ambiguous figures. Perception 41:1535–39.Google Scholar
Proffitt, D. R. (2006) Embodied perception and the economy of action. Perspectives on Psychological Science 1:110–22.CrossRefGoogle ScholarPubMed
Proffitt, D. R. & Linkenauger, S. A. (2013) Perception viewed as a phenotypic expression. In: Action science: Foundations of an emerging discipline, ed. Prinz, W., Beisert, M. & Herwig, A., pp. 171–98. MIT Press.Google Scholar
Proffitt, D. R., Stefanucci, J. K., Banton, T. & Epstein, W. (2003) The role of effort in perceiving distance. Psychological Science 14:106–12.CrossRefGoogle ScholarPubMed
Pylyshyn, Z. (1999) Is vision continuous with cognition? The case for cognitive impenetrability of visual perception. Behavioral and Brain Sciences 22(3):341–65.Google Scholar
Radel, R. & Clément-Guillotin, C. (2012) Evidence of motivational influences in early visual perception: Hunger modulates conscious access. Psychological Science 23:232–34.Google Scholar
Raftopoulos, A. (2001a) Is perception informationally encapsulated? The issue of the theory-ladenness of perception. Cognitive Science 25:423–51.Google Scholar
Raftopoulos, A. (2001b) Reentrant neural pathways and the theory-ladenness of perception. Philosophy of Science 68:S187–99.Google Scholar
Ramachandran, V. (1988) Perception of shape from shading. Nature 331:163–66.Google Scholar
Riccio, M., Cole, S. & Balcetis, E. (2013) Seeing the expected, the desired, and the feared: Influences on perceptual interpretation and directed attention. Social and Personality Psychology Compass 7:401–14.Google Scholar
Riener, C. R., Stefanucci, J. K., Proffitt, D. R. & Clore, G. L. (2011) An effect of mood on the perception of geographical slant. Cognition and Emotion 25:174–82.Google Scholar
Riskind, J. H., Moore, R. & Bowley, L. (1995) The looming of spiders: The fearful perceptual distortion of movement and menace. Behaviour Research and Therapy 33:171–78.Google Scholar
Rock, I. (1983) The logic of perception. MIT Press.Google Scholar
Rolfs, M., Dambacher, M. & Cavanagh, P. (2013) Visual adaptation of the perception of causality. Current Biology 23(3):250–54. doi:10.1016/j.cub.2012.12.017.Google Scholar
Rolls, E. T. (2008) Top–down control of visual perception: Attention in natural vision. Perception 37:333–54.Google Scholar
Rosenthal, R. & Rubin, D. B. (1978) Interpersonal expectancy effects: The first 345 studies. Behavioral and Brain Sciences 1:377–86.Google Scholar
Rust, N. C., Mante, V., Simoncelli, E. P. & Movshon, J. A. (2006) How MT cells analyze the motion of visual patterns. Nature Neuroscience 9:1421–31.Google Scholar
Schnall, S., Zadra, J. R. & Proffitt, D. R. (2010) Direct evidence for the economy of action: Glucose and the perception of geographical slant. Perception 39:464–82.Google Scholar
Scholl, B. J. (2001) Objects and attention: The state of the art. Cognition 80:146.Google Scholar
Scholl, B. J. & Gao, T. (2013) Perceiving animacy and intentionality: Visual processing or higher-level judgment? In: Social perception: Detection and interpretation of animacy, agency, and intention, ed. Rutherford, M. D. & Kuhlmeier, V. A., pp. 197230. MIT Press.Google Scholar
Scholl, B. J. & Leslie, A. M. (1999) Modularity, development and “theory of mind.Mind and Language 14:131–53.CrossRefGoogle Scholar
Scholl, B. J. & Tremoulet, P. D. (2000) Perceptual causality and animacy. Trends in Cognitive Sciences 4:299309.Google Scholar
Sekuler, R., Sekuler, A. B. & Lau, R. (1997) Sound alters visual motion perception. Nature 385:308.CrossRefGoogle ScholarPubMed
Shaffer, D. M. & Flint, M. (2011) Escalating slant: Increasing physiological potential does not reduce slant overestimates. Psychological Science 22:209–11.CrossRefGoogle Scholar
Shaffer, D. M., McManama, E., Swank, C. & Durgin, F. H. (2013) Sugar and space? Not the case: Effects of low blood glucose on slant estimation are mediated by beliefs. i-Perception 4:147–55.Google Scholar
Shams, L., Kamitani, Y. & Shimojo, S. (2000) Illusions: What you see is what you hear. Nature 408:788.Google Scholar
Shams, L., Kamitani, Y. & Shimojo, S. (2002) Visual illusion induced by sound. Cognitive Brain Research 14:147–52.Google Scholar
Siegel, S. (2012) Cognitive penetrability and perceptual justification. Noûs 46:201–22.Google Scholar
Simons, D. J. (1996) In sight, out of mind: When object representations fail. Psychological Science 7:301305.Google Scholar
Simons, D. J. & Chabris, C. F. (1999) Gorillas in our midst: Sustained inattentional blindness for dynamic events. Perception 28:1059–74.Google Scholar
Sklar, A., Levy, N., Goldstein, A., Mandel, R., Maril, A. & Hassin, R. (2012) Reading and doing arithmetic nonconsciously. Proceedings of the National Academy of Sciences USA 109:19614–19.Google Scholar
Song, H., Vonasch, A. J., Meier, B. P. & Bargh, J. A. (2012) Brighten up: Smiles facilitate perceptual judgment of facial lightness. Journal of Experimental Social Psychology 48:450–52.Google Scholar
Stefanucci, J. K., Gagnon, K. T. & Lessard, D. A. (2011) Follow your heart: Emotion adaptively influences perception. Social and Personality Psychology Compass 5:296308.Google Scholar
Stefanucci, J. K., Gagnon, K. T., Tompkins, C. L. & Bullock, K. E. (2012) Plunging into the pool of death: Imagining a dangerous outcome influences distance perception. Perception 41:111.Google Scholar
Stefanucci, J. K. & Geuss, M. N. (2009) Big people, little world: The body influences size perception. Perception 38:1782–95.Google Scholar
Stefanucci, J. K. & Proffitt, D. R. (2009) The roles of altitude and fear in the perception of height. Journal of Experimental Psychology: Human Perception and Performance 35:424–38.Google Scholar
Stefanucci, J. K. & Storbeck, J. J. (2009) Don't look down: Emotional arousal elevates height perception. Journal of Experimental Psychology: General 138:131–45.CrossRefGoogle ScholarPubMed
Stokes, D. (2013) Cognitive penetrability of perception. Philosophy Compass 8:646–63.Google Scholar
Stokes, D. (2014) Cognitive penetration and the perception of art. Dialectica 68:134.Google Scholar
Storbeck, J. & Clore, G. L. (2008) Affective arousal as information: How affective arousal influences judgments, learning, and memory. Social and Personality Psychology Compass 2:1824–43.CrossRefGoogle ScholarPubMed
Storbeck, J. & Stefanucci, J. K. (2014) Conditions under which arousal does and does not elevate height estimates. PLoS ONE 9:e92024.Google Scholar
Sugovic, M. & Witt, J. K. (2013) An older view on distance perception: Older adults perceive walkable extents as farther. Experimental Brain Research 226:383–91.Google Scholar
Taylor, J. E. T., Witt, J. K. & Sugovic, M. (2011) When walls are no longer barriers: Perception of wall height in parkour. Perception 40:757–60.Google Scholar
Teachman, B. A., Stefanucci, J. K., Clerkin, E. M., Cody, M. W. & Proffitt, D. R. (2008) A new mode of fear expression: Perceptual bias in height fear. Emotion 8:296301.Google Scholar
Toppino, T. C. (2003) Reversible-figure perception: Mechanisms of intentional control. Perception and Psychophysics 65:1285–95.Google Scholar
Tse, P. U. (2005) Voluntary attention modulates the brightness of overlapping transparent surfaces. Vision Research 45:1095–98.Google Scholar
Tse, P. U. & Cavanagh, P. (2000) Chinese and Americans see opposite apparent motions in a Chinese character. Cognition 74:B2732.Google Scholar
van Koningsbruggen, G. M., Stroebe, W. & Aarts, H. (2011) Through the eyes of dieters: Biased size perception of food following tempting food primes. Journal of Experimental Social Psychology 47:293–99.Google Scholar
van Ulzen, N. R., Semin, G. R., Oudejans, R. R. D. & Beek, P. J. (2008) Affective stimulus properties influence size perception and the Ebbinghaus illusion. Psychological Research 72:304–10.Google Scholar
Vetter, P. & Newen, A. (2014) Varieties of cognitive penetration in visual perception. Consciousness and Cognition 27:6275.Google Scholar
Vickery, T. J., Chun, M. M. & Lee, D. (2011) Ubiquity and specificity of reinforcement signals throughout the human brain. Neuron 72:166–77.Google Scholar
Wakslak, C. J. & Kim, B. K. (2015) Controllable objects seem closer. Journal of Experimental Psychology: General 144:522–27.Google Scholar
Ward, E. J. & Scholl, B. J. (2015) Inattentional blindness reflects limitations on perception, not memory: Evidence from repeated failures of awareness. Psychonomic Bulletin and Review 22:722–27.Google Scholar
Webster, M. A. & Kay, P. (2012) Color categories and color appearance. Cognition 122:375–92.Google Scholar
Wesp, R., Cichello, P., Gracia, E. B. & Davis, K. (2004) Observing and engaging in purposeful actions with objects influences estimates of their size. Perception and Psychophysics 66:1261–67.Google Scholar
Wesp, R. & Gasper, J. (2012) Is size misperception of targets simply justification for poor performance? Perception 41:994–96.Google Scholar
Witt, J. K. (2011a) Action's effect on perception. Current Directions in Psychological Science 20:201206.Google Scholar
Witt, J. K. (2011b) Tool use influences perceived shape and perceived parallelism, which serve as indirect measures of perceived distance. Journal of Experimental Psychology: Human Perception and Performance 37:1148–56.Google Scholar
Witt, J. K. & Dorsch, T. E. (2009) Kicking to bigger uprights: Field goal kicking performance influences perceived size. Perception 38:1328–40.Google Scholar
Witt, J. K., Linkenauger, S. A., Bakdash, J. Z. & Proffitt, D. R. (2008) Putting to a bigger hole: Golf performance relates to perceived size. Psychonomic Bulletin and Review 15:581–85.Google Scholar
Witt, J. K. & Proffitt, D. R. (2005) See the ball, hit the ball. Psychological Science 16:937–38.CrossRefGoogle ScholarPubMed
Witt, J. K., Proffitt, D. R. & Epstein, W. (2004) Perceiving distance: A role of effort and intent. Perception 33:577–90.Google Scholar
Witt, J. K., Proffitt, D. R. & Epstein, W. (2005) Tool use affects perceived distance, but only when you intend to use it. Journal of Experimental Psychology: Human Perception and Performance 31:880–88.Google Scholar
Witt, J. K., Proffitt, D. R. & Epstein, W. (2010) When and how are spatial perceptions scaled? Journal of Experimental Psychology: Human Perception and Performance 36:1153–60.Google Scholar
Witt, J. K. & Sugovic, M. (2010) Performance and ease influence perceived speed. Perception 39(10):1341–53. doi:10.1068/P6699.Google Scholar
Witt, J. K., Schuck, D. M. & Taylor, J. E. T. (2011) Action-specific effects underwater. Perception 40:530–37.Google Scholar
Witzel, C., Valkova, H., Hansen, T. & Gegenfurtner, K. R. (2011) Object knowledge modulates colour appearance. i-Perception 2(1):1349.Google Scholar
Woods, A. J., Philbeck, J. W. & Danoff, J. V. (2009) The various perceptions of distance: An alternative view of how effort affects distance judgments. Journal of Experimental Psychology: Human Perception and Performance 35:1104–17.Google Scholar
Yantis, S. (2013) Sensation and perception. Palgrave Macmillan.Google Scholar
Yee, E., Ahmed, S. Z. & Thompson-Schill, S. L. (2012) Colorless green ideas (can) prime furiously. Psychological Science 23:364–69.Google Scholar
Zadra, J. R. & Clore, G. L. (2011) Emotion and perception: The role of affective information. Wiley Interdisciplinary Reviews: Cognitive Science 2:676–85.Google Scholar
Zeimbekis, J. & Raftopoulos, A., eds. (2015) Cognitive effects on perception: New philosophical perspectives. Oxford University Press.Google Scholar
Zhang, S., Xu, M., Kamigaki, T., Hoang Do, J. P., Chang, W. C. & Jenvay, S. et al. (2014) Long-range and local circuits for top-down modulation of visual cortex processing. Science 345:660–65.Google Scholar