Impact of babyface schema on time perception: Insights from neutral and crying facial expressions

Lina Jia; Bingjie Shao; Lili Wang; Xiaocheng Wang; Zhuanghua Shi

doi:10.1002/pchj.766

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Psych Journal ›› 2024, Vol. 13 ›› Issue (3) : 398-406. DOI: 10.1002/pchj.766

ORIGINAL ARTICLE

Impact of babyface schema on time perception: Insights from neutral and crying facial expressions

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Abstract

Facial expressions in infants have been noted to create a spatial attention bias when compared with adult faces. Yet, there is limited understanding of how adults perceive the timing of infant facial expressions. To investigate this, we used both infant and adult facial expressions in a temporal bisection task. In Experiment 1, we compared duration judgments of neutral infant and adult faces. The results revealed that participants felt that neutral infant faces lasted for a shorter time than neutral adult faces, independent of participant sex. Experiment 2 employed sad (crying) facial expressions. Here, the female participants perceived that the infants' faces were displayed for a longer duration than the adults' faces, whereas this distinction was not evident among the male participants. These findings highlight the influence of the babyface schema on time perception, nuanced by emotional context and sex-based individual variances.

Keywords

attention / duration perception / embodiment / infant facial expression / sex difference

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Lina Jia, Bingjie Shao, Lili Wang, Xiaocheng Wang, Zhuanghua Shi. Impact of babyface schema on time perception: Insights from neutral and crying facial expressions. Psych Journal, 2024, 13(3): 398‒406 https://doi.org/10.1002/pchj.766

References

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[1]	Angrilli, A., Cherubini, P., Pavese, A., & Manfredini, S. (1997). The influence of affective factors on time perception. Perception & Psychophysics, 59(6), 972–982. CrossRef Google scholar

[2]	Arantes, J., Pinho, M., Wearden, J., & Albuquerque, P. B. (2021). “Time slows down whenever you are around” for women but not for men. Frontiers in Psychology, 12, 641729. CrossRef Google scholar

[3]

Bornstein, M. H., Putnick, D. L., Rigo, P., Swain, J. E., Suwalsky, J. T. D., Su, X., Du, X., Zhang, K., Cote, L. R., De Pisapia, N., & Venuti, P. (2017). Neurobiology of culturally common maternal responses to infant cry. Proceedings of the National Academy of Sciences of the United States of America, 114(45), E9465–E9473.

CrossRef Google scholar

[4]	Bowlby, J. (1969). Attachment and loss: Attachment (Vol. 1). Basic Books.

[5]	Bradley, M. M., & Lang, P. J. (1994). Measuring emotion: The self-assessment manikin and the semantic differential. Journal of Behavior Therapy and Experimental Psychiatry, 25(1), 49–59. CrossRef Google scholar

[6]	Brainard, D. H. (1997). The psychophysics toolbox. Spatial Vision, 10(4), 433–436. CrossRef Google scholar

[7]	Brosch, T., Sander, D., & Scherer, K. R. (2007). That baby caught my eye… Attention capture by infant faces. Emotion, 7(3), 685–689. CrossRef Google scholar

[8]	Burle, B., & Casini, L. (2001). Dissociation between activation and attention effects in time estimation: Implications for internal clock models. Journal of Experimental Psychology: Human Perception and Performance, 27(1), 195–205. CrossRef Google scholar

[9]	Cárdenas, R. A., Harris, L. J., & Becker, M. W. (2013). Sex differences in visual attention toward infant faces. Evolution and Human Behavior, 34(4), 280–287. CrossRef Google scholar

[10]	Caria, A., de Falco, S., Venuti, P., Lee, S., Esposito, G., Rigo, P., Birbauer, N., & Bornstein, M. H. (2012). Species-specific response to human infant faces in the premotor cortex. NeuroImage, 60(2), 884–893. CrossRef Google scholar

[11]	Clark, A. (1999). An embodied cognitive science? Trends in Cognitive Sciences, 3(9), 345–351. CrossRef Google scholar

[12]	Colasante, T., Mossad, S. I., Dudek, J., & Haley, D. W. (2017). The special status of sad infant faces: Age and valence differences in adults' cortical face processing. Social Cognitive and Affective Neuroscience, 12(4), 586–595. CrossRef Google scholar

[13]	Craig, A. D. (2009). Emotional moments across time: A possible neural basis for time perception in the anterior insula. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences, 364(1525), 1933–1942. CrossRef Google scholar

[14]	Ding, F., Zhang, D., & Cheng, G. (2016). The effect of secure attachment state and infant facial expressions on childless adults' parental motivation. Frontiers in Psychology, 7, 1237. CrossRef Google scholar

[15]	Droit-Volet, S. (2019). The temporal dynamic of emotional effect on judgments of durations. In A. Valtteri, B. Adrian, E. P. Sean, & V. Argiro (Eds.), The illusions of time: Philosophical and psychological essays on timing and time perception (Vol. 8, e8565). Palgrave Macmillan.

[16]	Droit-Volet, S., & Berthon, M. (2017). Emotion and implicit timing: The arousal effect. Frontiers in Psychology, 8, 176. CrossRef Google scholar

[17]	Droit-Volet, S., Brunot, S., & Niedenthal, P. M. (2004). Perception of the duration of emotional events. Cognition and Emotion, 18(6), 849–858. CrossRef Google scholar

[18]	Droit-Volet, S., & Dambrun, M. (2019). Awareness of the passage of time and self-consciousness: What do meditators report? PsyCh Journal, 8(1), 51–65. CrossRef Google scholar

[19]	Droit-Volet, S., Fayolle, S., Lamotte, M., & Gil, S. (2013). Time, emotion and the embodiment of timing. Timing & Time Perception, 1(1), 99–126. CrossRef Google scholar

[20]	Droit-Volet, S., & Gil, S. (2009). The time-emotion paradox. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences, 364(1525), 1943–1953. CrossRef Google scholar

[21]	Droit-Volet, S., & Meck, W. H. (2007). How emotions colour our perception of time. Trends in Cognitive Sciences, 11(12), 504–513. CrossRef Google scholar

[22]	Droit-Volet, S., Mermillod, M., Cocenas-Silva, R., & Gil, S. (2010). The effect of expectancy of a threatening event on time perception in human adults. Emotion, 10(6), 908–914. CrossRef Google scholar

[23]	Endendijk, J., Smit, A., van Baar, A., & Bos, P. (2020). What a cute baby! Preliminary evidence from a fMRI study for the association between mothers' neural responses to infant faces and activation of the parental care system. Neuropsychologia, 143, 107493. CrossRef Google scholar

[24]	Engel, A. K., Maye, A., Kurthen, M., & Konig, P. (2013). Where's the action? The pragmatic turn in cognitive science. Trends in Cognitive Sciences, 17(5), 202–209. CrossRef Google scholar

[25]	Faul, F., Erdfelder, E., Lang, A.-G., & Buchner, A. (2007). Gpower 3: A flexible statistical power analysis program for the social, behavioral, and biomedical sciences. Behavior Research Methods*, 39(2), 175–191. CrossRef Google scholar

[26]	Fayolle, S., Gil, S., & Droit-Volet, S. (2015). Fear and time: Fear speeds up the internal clock. Behavioural Processes, 120, 135–140. CrossRef Google scholar

[27]	Franklin, P., Volk, A. A., & Wong, I. (2018). Are newborns' faces less appealing? Evolution and Human Behavior, 39(3), 269–276. CrossRef Google scholar

[28]	Gibbon, J. (1977). Scalar expectancy theory and Weber's law in animal timing. Psychological Review, 84(3), 279–325. CrossRef Google scholar

[29]	Gibbon, J., & Church, R. M. (1990). Representation of time. Cognition, 37(1–2), 23–54. CrossRef Google scholar

[30]	Gibbon, J., Church, R. M., & Meck, W. H. (1984). Scalar timing in memory. Annals of the New York Academy of Sciences, 423(1), 52–77. CrossRef Google scholar

[31]	Gil, S., & Droit-Volet, S. (2011). How do emotional facial expressions influence our perception of time? In S. Masmoudi, D. Y. Dai, & A. Naceur (Eds.), Attention, representation, and human performance: Integration of cognition, emotion, and motivation (pp. 61–74). Psychology Press.

[32]	Gil, S., & Droit-Volet, S. (2012). Emotional time distortions: The fundamental role of arousal. Cognition & Emotion, 26(5), 847–862. CrossRef Google scholar

[33]	Glicksohn, J., & Hadad, Y. (2012). Sex differences in time production revisited. Journal of Individual Differences, 33, 35–42. CrossRef Google scholar

[34]

Glocker, M. L., Langleben, D. D., Ruparel, K., Loughead, J. W., Valdez, J. N., Griffin, M. D., Sachser, N., & Gur, R. C. (2009). Baby schema modulates the brain reward system in nulliparous women. Proceedings of the National Academy of Sciences of the United States of America, 106(22), 9115–9119.

CrossRef Google scholar

[35]	Grommet, E. K., Droit-Volet, S., Gil, S., Hemmes, N. S., Baker, A. H., & Brown, B. L. (2011). Time estimation of fear cues in human observers. Behavioural Processes, 86(1), 88–93. CrossRef Google scholar

[36]	Hagura, N., Kanai, R., Orgs, G., & Haggard, P. (2012). Ready steady slow: Action preparation slows the subjective passage of time. Proceedings of the Royal Society B: Biological Sciences, 279(1746), 4399–4406. CrossRef Google scholar

[37]	Jia, L., Shao, B., Wang, X., & Shi, Z. (2021). Phrase depicting immoral behavior dilates its subjective time judgment. Frontiers in Psychology, 12, 784752. CrossRef Google scholar

[38]	Jia, L., Shi, Z., Zang, X., & Müller, H. J. (2015). Watching a real moving object expands tactile duration: The role of task-irrelevant action context for subjective time. Attention, Perception, & Psychophysics, 77(8), 2768–2780. CrossRef Google scholar

[39]	Jia, Y., Ding, F., Cheng, G., Chen, J., Zhang, W., Lin, N., & Zhang, D. (2021). Adults' responses to infant faces: Neutral infant facial expressions elicit the strongest baby schema effect. Quarterly Journal of Experimental Psychology, 74(5), 853–871. CrossRef Google scholar

[40]	Jia, Y., Ding, F., Cheng, G., Liu, Y., Yu, W., Zou, Y., & Zhang, D. (2022). Infants' neutral facial expressions elicit the strongest initial attentional bias in adults: Behavioral and electrophysiological evidence. Psychophysiology, 59(1), e13944. CrossRef Google scholar

[41]	Jia, Y., Ding, F., Cheng, G., Zhang, W., Lin, N., & Zhang, D. (2019). Initial establishment of the same face with multi-expressions' image database for infants and adults. Chinese Mental Health Journal, 33, 918–924. CrossRef Google scholar

[42]	Long, N., Yu, W., Wang, Y., Gong, X., Zhang, W., & Chen, J. (2021). Do infant faces maintain the attention of adults with high avoidant attachment? Frontiers in Psychology, 12, 631751. CrossRef Google scholar

[43]	Lorenz, K. (1943). The innate forms of potential experience. Zeitschrift für Tierpsychologie, 5(2), 235–409. CrossRef Google scholar

[44]	Lucion, M. K., Oliveira, V., Bizarro, L., Bischoff, A. R., Silveira, P. P., & Kauer-Sant'Anna, M. (2017). Attentional bias toward infant faces – Review of the adaptive and clinical relevance. International Journal of Psychophysiology, 114, 1–8. CrossRef Google scholar

[45]	Lui, M. A., Penney, T. B., & Schirmer, A. (2011). Emotion effects on timing: Attention versus pacemaker accounts. PLoS One, 6(7), e21829. CrossRef Google scholar

[46]	Luo, L., Ma, X., Zheng, X., Zhao, W., Xu, L., Becker, B., & Kendrick, K. (2015). Neural systems and hormones mediating attraction to infant and child faces. Frontiers in Psychology, 6, 970. CrossRef Google scholar

[47]	Maricq, A. V., Roberts, S., & Church, R. M. (1981). Methamphetamine and time estimation. Journal of Experimental Psychology: Animal Behavior Processes, 7(1), 18–30. CrossRef Google scholar

[48]

Messina, I., Cattaneo, L., Venuti, P., de Pisapia, N., Serra, M., Esposito, G., Rigo, P., Farneti, A., & Bornstein, M. (2016). Sex-specific automatic responses to infant cries: TMS reveals greater excitability in females than males in motor evoked potentials. Frontiers in Psychology, 6, 1909.

CrossRef Google scholar

[49]	Naghibi, N., Jahangiri, N., Khosrowabadi, R., Eickhoff, C. R., Eickhoff, S. B., Jennifer, T. C., & Tahmasian, M. (2024). Embodying time in the brain: A multi-dimensional neuroimaging meta-analysis of 95 duration processing studies. Neuropsychology Review, 34, 277–298. CrossRef Google scholar

[50]	Niedenthal, P. M. (2007). Embodying emotion. Science, 316(5827), 1002–1005. CrossRef Google scholar

[51]	Ogden, R. S. (2013). The effect of facial attractiveness on temporal perception. Cognition & Emotion, 27(7), 1292–1304. CrossRef Google scholar

[52]	Parsons, C. E., Young, K. S., Kumari, N., Stein, A., & Kringelbach, M. (2011). The motivational salience of infant faces is similar for men and women. PLoS One, 6(5), e20632. CrossRef Google scholar

[53]	Penton-Voak, I. S., Edwards, H., Percival, A., & Wearden, J. H. (1996). Speeding up an internal clock in humans? Effects of click trains on subjective duration. Journal of Experimental Psychology-Animal Behavior Processes, 22(3), 307–320. CrossRef Google scholar

[54]	Pollatos, O., Laubrock, J., & Wittmann, M. (2014). Interoceptive focus shapes the experience of time. PLoS One, 9(1), e86934. CrossRef Google scholar

[55]	Posner, M. I., Inhoff, A. W., Friedrich, F. J., & Cohen, A. (1987). Isolating attentional systems: A cognitive-anatomical analysis. Psychobiology, 15(2), 107–121. CrossRef Google scholar

[56]

Raghunath, B. L., Sng, K. H. L., Chen, S. H. A., Vijayaragavan, V., Gulyás, B., Setoh, P., & Esposito, G. (2022). Stronger brain activation for own baby but similar activation toward babies of own and different ethnicities in parents living in a multicultural environment. Scientific Reports, 12(1), 10988.

CrossRef Google scholar

[57]	Rhodes, G. (2006). The evolutionary psychology of facial beauty. Annual Review of Psychology, 57(1), 199–226. CrossRef Google scholar

[58]	Sakaki, M., Niki, K., & Mather, M. (2012). Beyond arousal and valence: The importance of the biological versus social relevance of emotional stimuli. Cognitive, Affective, & Behavioral Neuroscience, 12(1), 115–139. CrossRef Google scholar

[59]	Shi, Z., Jia, L., & Müller, H. J. (2012). Modulation of tactile duration judgments by emotional pictures. Frontiers in Integrative Neuroscience, 6, 24. CrossRef Google scholar

[60]	Soltis, J. (2004). The signal functions of early infant crying. Behavioral & Brain Sciences, 27(4), 443–458. CrossRef Google scholar

[61]	Theeuwes, J. (2010). Top-down and bottom-up control of visual selection. Acta Psychologica, 135(2), 77–99. CrossRef Google scholar

[62]	Thomas, E. C., & Weaver, W. B. (1975). Cognitive processing and time perception. Perception & Psychophysics, 17(4), 363–367. CrossRef Google scholar

[63]	Tian, Y., Li, L., Yin, H., & Huang, X. (2019). Gender differences in the effect of facial attractiveness on perception of time. Frontiers in Psychology, 10, 1292. CrossRef Google scholar

[64]	Vingerhoets, A. J. J. M., & Bylsma, L. M. (2016). The riddle of human emotional crying: A challenge for emotion researchers. Emotion Review, 8(3), 207–217. CrossRef Google scholar

[65]	Wearden, J. H., Edwards, H., Fakhri, M., & Percival, A. (1998). Why “sounds are judged longer than lights”: Application of a model of the internal clock in humans. The Quarterly Journal of Experimental Psychology. B, Comparative and Physiological Psychology, 51(2), 97–120. CrossRef Google scholar

[66]	Wittmann, M. (2013). The inner sense of time: How the brain creates a representation of duration. Nature Reviews Neuroscience, 14(3), 217–223. CrossRef Google scholar

[67]	Wittmann, M. (2014). Embodied time: The experience of time, the body, and the self. In V. Arstila & D. Lloyd (Eds.), Subjective time: The philosophy, psychology, and neuroscience of temporality (pp. 507–523). MIT Press.

[68]	Wittmann, M., & van Wassenhove, V. (2009). The experience of time: Neural mechanisms and the interplay of emotion, cognition and embodiment. Philosophical Transactions of the Royal Society B: Biological Sciences, 364(1525), 1809–1813. CrossRef Google scholar

[69]	Wittmann, M., van Wassenhove, V., Craig, A. D., & Paulus, M. P. (2010). The neural substrates of subjective time dilation. Frontiers in Human Neuroscience, 4, 2. CrossRef Google scholar

[70]

Young, K. S., Parsons, C. E., Jegindoe Elmholdt, E.-M., Woolrich, M. W., Van Hartevelt, T. J., Stevner, A. B. A., Stein, A., & Kringelbach, M. L. (2016). Evidence for a caregiving instinct: Rapid differentiation of infant from adult vocalizations using magnetoencephalography. Cerebral Cortex, 26(3), 1309–1321.

CrossRef Google scholar

[71]	Zakay, D., & Block, R. A. (1995). An attentional gate model of prospective time estimation. In M. Richelle, V. D. Keyser, G. d'Ydewalle, & A. Vandierendonck (Eds.), Time and the dynamic control of behavior (pp. 167–178). Universite Liège.

[72]	Zakay, D., & Block, R. A. (1996). The role of attention in time estimation processes. In M. A. Pastor & J. Artieda (Eds.), Time, internal clocks and movement (pp. 143–164). North-Holland.

[73]	Zakay, D., & Block, R. A. (1997). Temporal cognition. Current Directions in Psychological Science, 6(1), 12–16. CrossRef Google scholar

[74]	Zhang, K., Du, X., Liu, X., Su, W., Sun, Z., Wang, M., & Du, X. (2022). Gender differences in brain response to infant emotional faces. BMC Neuroscience, 23(1), 79. CrossRef Google scholar

[75]	Zhou, S., Li, L., Wang, F., & Tian, Y. (2021). How facial attractiveness affects time perception: Increased arousal results in temporal dilation of attractive faces. Frontiers in Psychology, 12, 784099. CrossRef Google scholar