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Behavioral evidence for a continuous approach to the perception of emotionally valenced stimuli

Published online by Cambridge University Press:  08 June 2015

Vanessa LoBue*
Affiliation:
Department of Psychology, Rutgers University, Newark, NJ 07102. vlobue@psychology.rutgers.eduhttp://nwkpsych.rutgers.edu/~vlobue/

Abstract

Pessoa's (2013) dual competition model outlines a framework for how cognition and emotion interact at the perceptual levels and provides evidence within the field of neuroscience to support this new perspective. Here, I discuss how behavioral work fares with this new model and how visual detection is influenced by information with affective or motivational content.

Type
Open Peer Commentary
Copyright
Copyright © Cambridge University Press 2015 

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References

Becker, D. V., Anderson, U. S., Mortensen, C. R., Neufeld, S. L. & Neel, R. (2011a) The face in the crowd effect unconfounded: Happy faces, not angry faces, are more efficiently detected in single- and multiple-target visual search tasks. Journal of Experimental Psychology General 140:637–59.Google Scholar
Becker, S. I., Horstmann, G. & Remington, R. W. (2011b) Perceptual grouping, not emotion, accounts for search asymmetries with schematic faces. Journal of Experimental Psychology, Human Perception and Performance 37:1739–57.Google Scholar
Calvo, M. G., Avero, P. & Lundqvist, D. (2006) Facilitated detection of angry faces: Initial orienting and processing efficiency. Cognition and Emotion 20:785811.Google Scholar
Coan, J. A. (2010) Emergent ghosts of the emotion machine. Emotion Review 2:274–85.Google Scholar
Coelho, C. M., Cloete, S. & Wallis, G. (2011) The face-in-the-crowd effect: When angry faces are just cross(es). Journal of Vision 10:114.CrossRefGoogle Scholar
Cunningham, W. A. & Zelazo, P. D. (2009) The development of iterative reprocessing: Implications for affect and its regulation. In: Developmental social cognitive neuroscience, ed. Zelazo, P. D., Chandler, M. & Crone, E. A., pp. 8198. Erlbaum.Google Scholar
Eastwood, J. D. & Smilek, D. (2005) Functional consequences of perceiving facial expressions of emotion without awareness. Consciousness and Cognition 14:565–84.Google Scholar
Eastwood, J. D., Smilek, D. & Merikle, P. M. (2001) Differential attentional guidance by unattended faces expressing positive and negative emotion. Perception and Psychophysics 63:1004–13.Google Scholar
Ekman, P. & Cordaro, D. (2011) What is meant by calling emotions basic. Emotion Review 3:364–70.Google Scholar
Esteves, F. (1999) Attentional bias to emotional facial expressions. European Review of Applied Psychology 49:9197.Google Scholar
Flykt, A. (2005) Visual search with biological threat stimuli: Accuracy, reaction times, and heart rate changes. Emotion 5:349–53.Google Scholar
Flykt, A. (2006) Preparedness for action: Responding to the snake in the grass. The American Journal of Psychology 119:2943.Google Scholar
Fox, E., Lester, V., Russo, R., Bowles, R., Pichler, A. & Dutton, K. (2000) Facial expressions of emotion: Are angry faces detected more efficiently? Cognition and Emotion 14:6192.Google Scholar
Frischen, A., Eastwood, J. D. & Smilek, D. (2008) Visual search for faces with emotional expressions. Psychological Bulletin 134:662–76.Google Scholar
Hansen, C. H. & Hansen, R. D. (1988) Finding the face in the crowd: An anger superiority effect. Journal of Personality and Social Psychology 54:917–24.Google Scholar
Hayakawa, S., Kawai, N. & Masataka, N. (2011) The influence of color on snake detection in visual search in human children. Scientific Reports 1:14.Google Scholar
Horstmann, G. & Bauland, A. (2006) Search asymmetries with real faces: Testing the anger–superiority effect. Emotion 6:193207.Google Scholar
Horstmann, G., Borgstedt, K. & Heumann, M. (2006) Flanker effects with faces may depend on perceptual as well as emotional differences. Emotion 6:2839.CrossRefGoogle ScholarPubMed
Izard, C. E. (2007) Basic emotions, natural kinds, emotion schemas, and a new paradigm. Perspectives in Psychological Science 2:260–80.Google Scholar
Larson, C. L., Aronoff, J. & Stearns, J. J. (2007) The shape of threat: Simple geometric forms evoke rapid and sustained capture of attention. Emotion 7:526–34.CrossRefGoogle ScholarPubMed
Lewis, M. D. & Douglas, L. (1998) A dynamic systems approach to cognition-emotion interactions in development. In: What develops in emotional development? ed. Mascolo, M. F. & Griffin, S., pp. 159–88. Plenum Press.Google Scholar
Lipp, O. V. (2006) Of snakes and flowers: Does preferential detection of pictures of fear-relevant animals in visual search reflect on fear-relevance? Emotion 6:296308.Google Scholar
Lipp, O. V. & Derakshan, N. (2005) Attentional bias to pictures of fear-relevant animals in a dot probe task. Emotion 5:365–69.Google Scholar
Lipp, O. V., Derakshan, N., Waters, A. M. & Logies, S. (2004) Snakes and cats in the flower bed: Fast detection is not specific to pictures of fear-relevant animals. Emotion 4:233–50.Google Scholar
Lipp, O. V. & Waters, A. M. (2007) When danger lurks in the background: Attentional capture by animal fear-relevant distractors is specific and selectively enhanced by animal fear. Emotion 7:192200.Google Scholar
LoBue, V. (2009) More than just a face in the crowd: Detection of emotional facial expressions in young children and adults. Developmental Science 12:305–13.Google Scholar
LoBue, V. (2010) And along came a spider: Superior detection of spiders in children and adults. Journal of Experimental Child Psychology 107:5966.Google Scholar
LoBue, V. (2014) Deconstructing the snake: The relative roles of perception, cognition, and emotion on threat detection. Emotion 14(4):701–11.Google Scholar
LoBue, V. & DeLoache, J. S. (2008) Detecting the snake in the grass: Attention to fear-relevant stimuli by adults and young children. Psychological Science 19:284–89.Google Scholar
LoBue, V. & DeLoache, J. S. (2010) Superior detection of threat-relevant stimuli in infancy. Developmental Science 13:221–28.Google Scholar
LoBue, V. & DeLoache, J. S. (2011) What's so special about slithering serpents? Children and adults rapidly detect snakes based on their simple features. Visual Cognition 19:129–43.Google Scholar
LoBue, V. & Larson, C. L. (2010) What makes angry faces look so…angry? Examining visual attention to the shape of threat in children and adults. Visual Cognition 18:1165–78.Google Scholar
LoBue, V., Matthews, K., Harvey, T. & Stark, S. L. (2014) What accounts for the rapid detection of threat? Evidence for an advantage in perceptual and behavioral responding from eye movements. Emotion 14(4):816–23.Google Scholar
Lundqvist, D. & Öhman, A. (2005) Emotion regulates attention: The relation between facial configurations, facial emotion, and visual attention. Visual Cognition 12:5184.Google Scholar
Masataka, N. & Shibasaki, M. (2012) Premenstrual enhancement of snake detection in visual search in healthy women. Scientific Reports 2:14.Google Scholar
Öhman, A., Flykt, A. & Esteves, F. (2001a) Emotion drives attention: Detecting the snake in the grass. Journal of Experimental Psychology: General 13:466–78.Google Scholar
Öhman, A., Lundqvist, D. & Esteves, F. (2001b) The face in the crowd revisited: An anger superiority effect with schematic faces. Journal of Personality and Social Psychology 80:381–96.Google Scholar
Panksepp, J. (2007) Neurologizing the psychology of affects: How appraisal-based constructivism and basic emotion theory can coexist. Perspectives in Psychological Science 2:281–96.Google Scholar
Pessoa, L. (2013) The cognitive-emotional brain. From interactions to integration. MIT Press.Google Scholar
Purkis, H. M. & Lipp, O. V. (2007) Automatic attention does not equal automatic fear: Preferential attention without implicit valence. Emotion 7:314–23.Google Scholar
Rakison, D. H. & Derringer, J. L. (2008) Do infants possess an evolved spider-detection mechanism? Cognition 107:381–93.Google Scholar
Schubo, A., Gendolla, G., Meinecke, C. & Abele, A. E. (2006) Detecting emotional faces and features in a visual search task paradigm: Are faces special? Emotion 6:246–56.CrossRefGoogle Scholar
Shibasaki, M. & Kawai, N. (2009) Rapid detection of snakes by Japanese monkeys (Macaca fuscata): An evolutionarily predisposed visual system. Journal of Comparative Psychology 123:131–35.Google Scholar
Soares, S. C., Esteves, F., Lundqvist, D. & Öhman, A. (2012) Some animal specific fears are more specific than others: Evidence from attention and emotion measures. Behaviour Research and Therapy 47:1032–42.CrossRefGoogle Scholar
Tipples, J., Atkinson, A. P. & Young, A. W. (2002a) The eyebrow frown: A salient social signal. Emotion 2:288–96.Google Scholar
Tipples, J., Young, A. W., Quinlan, P., Broks, P. & Ellis, A. W. (2002b) Searching for threat. The Quarterly Journal of Experimental Psychology 55A:1007–26.Google Scholar
Williams, M. A., Moss, S. A., Bradshaw, J. L. & Mattingly, J. B. (2005) Look at me, I'm smiling: Visual search for threatening and nonthreatening facial expressions. Visual Cognition 12:2950.Google Scholar
Wolfe, J. M. (1998) What can 1 million trials tell us about visual search? Psychological Science 9:3339.Google Scholar