心理科学进展 ›› 2019, Vol. 27 ›› Issue (11): 1842-1852.doi: 10.3724/SP.J.1042.2019.01842
收稿日期:
2019-02-28
出版日期:
2019-10-31
发布日期:
2019-09-23
通讯作者:
卢家楣
E-mail:lujiamei@vip.163.com
基金资助:
WANG Xia1, LU Jiamei1(), CHEN Wuying2
Received:
2019-02-28
Online:
2019-10-31
Published:
2019-09-23
Contact:
LU Jiamei
E-mail:lujiamei@vip.163.com
摘要:
语言是传递情绪信息的重要媒介, 探讨情绪语言的加工过程一直是情绪研究的重点。文章聚焦于情绪词加工的ERP研究, 介绍了情绪词加工中的ERP成分、效价与唤醒度的作用关系, 以及情绪词情绪效应的特点。情绪词加工的ERP成分包括非常早期的P1-N1成分, 早期的EPN成分和晚期的LPP成分; 效价和唤醒度均在情绪词加工中具有重要作用, 但两者的关系还未得到一致结论。相比情绪图片, 情绪词加工所引发的情绪效应更弱, 并且存在积极效价偏向。今后的研究还需进一步探讨影响情绪词情绪效应产生的相关因素; 进一步区分情绪标注词和情绪负载词, 探讨两类情绪词加工的异同。此外, 结合眼动追踪技术探讨自然语境中的情绪词加工机制也是未来研究的一个重要方向。
中图分类号:
王霞, 卢家楣, 陈武英. (2019). 情绪词加工过程及其情绪效应特点:ERP的证据. 心理科学进展 , 27(11), 1842-1852.
WANG Xia, LU Jiamei, CHEN Wuying. (2019). The processing of emotional words and its emotional effect characteristics: Evidence from ERP studies. Advances in Psychological Science, 27(11), 1842-1852.
1 | 丁小斌, 康铁君, 赵鑫, 付军军 . ( 2018). 躯体表情与面部表情加工进程比较. 心理科学进展, 26( 3), 423-432. |
2 | 孙俊才, 刘萍, 李丹 . ( 2018). 高共情者加工情绪刺激的注意特征及其眼动证据. 心理科学, 41( 5), 1084-1089. |
3 | 牧侠, 李雪榴, 叶春, 李红 . ( 2014). 面部表情加工的ERP成分, 心理科学进展, 22( 10), 1556-1563. |
4 | 王振宏, 姚昭 . ( 2012). 情绪名词的具体性效应:来自ERP的证据. 心理学报, 44( 2), 154-165. |
5 | Bayer M., Grass A., & Schacht A . ( 2018). Associated valence impacts early visual processing of letter strings : Evidence from ERPs in a cross-modal learning paradigm. Cognitive, Affective, & Behavioral Neuroscience, 19( 1), 98-108. |
6 | Bayer M., Ruthmann K., & Schacht A . ( 2017). The impact of personal relevance on emotion processing: Evidence from event-related potentials and pupillary responses. Social Cognitive and Affective Neuroscience, 12( 9), 1470-1479. |
7 | Bayer, M., &Schacht A. (2014). Event-related brain responses to emotional words, pictures, and faces - a cross-domain comparison. Frontiers in Psychology, 5( 10), 1-10. |
8 | Bayer M., Sommer W., & Schacht A . ( 2010). Reading emotional words within sentences : The impact of arousal and valence on event-related potentials. International Journal of Psychophysiology, 78( 3), 299-307. |
9 | Bayer M., Sommer W., & Schacht A . ( 2012). P1 and beyond : Functional separation of multiple emotion effects in word recognition. Psychophysiology, 49( 7), 959-969. |
10 | Briesemeister B. B., Kuchinke L., & Jacobs A. M . ( 2014). Emotion word recognition: Discrete information effects first, continuous later ? Brain Research, 1564 62-71. |
11 | Citron,F. M. M . ( 2012). Neural correlates of written emotion word processing: A review of recent electrophysiological and hemodynamic neuroimaging studies. Brain and Language, 122( 3), 211-226. |
12 | Citron F. M. M., Abugaber D., & Herbert C . ( 2016). Approach and withdrawal tendencies during written word processing: Effects of task, emotional valence, and emotional arousal. Frontiers in Psychology, 6( 1), 1-11. |
13 | Citron F. M. M., Weekes B. S., & Ferstl E. C . ( 2013). Effects of valence and arousal on written word recognition: Time course and ERP correlates. Neuroscience Letters, 533( 1), 90-95. |
14 | Delaney-busch N., Wilkie G., & Kuperberg G . ( 2016). Vivid : How valence and arousal influence word processing under different task demands. Cognitive, Affective, & Behavioral Neuroscience, 16( 3), 415-432. |
15 | Ding J., Wang L., & Yang Y . ( 2016). The dynamic influence of emotional words on sentence comprehension : An ERP study. Cognitive, Affective, & Behavioral Neuroscience, 16( 3), 433-446. |
16 | Espuny J., Jiménez-ortega L., Casado P., Fondevila S., Muñoz F., Hernández-gutiérrez D., & Martín-loeches M . ( 2018). Event-related brain potential correlates of words’ emotional valence irrespective of arousal and type of task. Neuroscience Letters, 670( 1), 83-88. |
17 | Fields,E. C., &Kuperberg,G. R . ( 2016). Dynamic effects of self-relevance and task on the neural processing of emotional words in context. Frontiers in Psychology, 6( 1), 1-12. |
18 | Fritsch, N., &Kuchinke L. (2013). Acquired affective associations induce emotion effects in word recognition : An ERP study. Brain & Language, 124( 1), 75-83. |
19 | Frühholz S., Jellinghaus A., & Herrmann M . ( 2011). Time course of implicit processing and explicit processing of emotional faces and emotional words. Biological Psychology, 87( 2), 265-274. |
20 | González-Villar A. J., Triñanes Y., Zurrón M., & Carrillo-De-La-Peña M. T . ( 2014). Brain processing of task-relevant and task-irrelevant emotional words: An ERP study. Cognitive, Affective and Behavioral Neuroscience, 14( 3), 939-950. |
21 | Hawelka S., Schuster S., Gagl B., & Hutzler F . ( 2015). On forward inferences of fast and slow readers. An eye movement study. Scientific Reports, 5 8432. |
22 | Hinojosa J. A., Albert J., López-martín S., & Carretié L . ( 2014). Temporospatial analysis of explicit and implicit processing of negative content during word comprehension. Brain and Cognition, 87 109-121. |
23 | Hinojosa J. A., Carretié L., Alcárcel, M. A. V, Méndez-Bértolo, C., & Pozo M. A . ( 2009). Electrophysiological differences in the processing of affective information in words and pictures. Cognitive, Affective, & Behavioral Neuroscience, 9( 2), 173-189. |
24 | Hinojosa J. A., Méndez-Bértolo C., & Pozo M. A . ( 2010). Looking at emotional words is not the same as reading emotional words : Behavioral and neural correlates. Psychophysiology, 47( 4), 748-757. |
25 | Hinojosa J. A., Mercado F., Albert J., Barjola P., Peláez I., Villalba-García1 C., & Carretié L . ( 2015). Neural correlates of an early attentional capture by positive distractor words. Frontiers in Psychology, 6( 1), 1-13. |
26 | Hofmann M. J., Kuchinke L., Tamm S., VÕ M. L. H., & Jacobs A. M . ( 2009). Affective processing within 1/10th of a second: High arousal is necessary for early facilitative processing of negative but not positive words. Cognitive, Affective and Behavioral Neuroscience, 9( 4), 389-397. |
27 | Ito, T., &Cacioppo J. ( 2005). Variations on a human universal : Individual differences in positivity offset and negativity bias. Cognition and Emotion, 19( 1), 1-26. |
28 | Kaltwasser L., Ries S., Sommer W., Knight R. T., & Willems R. M . ( 2013). Independence of valence and reward in emotional word processing: Electrophysiological evidence. Frontiers in Psychology, 4( 4), 168. |
29 | Kanske, P., &Kotz S. ( 2007). Concreteness in emotional words: ERP evidence from a hemifield study. Brain Research, 1148( 1), 138-148. |
30 | Kazanas,S. A., &Altarriba J. ( 2015). The automatic activation of emotion and emotion-laden words: Evidence from a masked and unmasked priming paradigm. American Journal of Psychology, 128( 3), 323-336. |
31 | Kazanas,S. A., &Altarriba J. (2016). Emotion word processing: Effects of word type and valence in Spanish-English bilinguals. Journal of Psycholinguistic Research, 45( 2), 395-406. |
32 | Keuper K., Zwanzger P., Nordt M., Eden A., Laeger I., Zwitserlood P., … Dobel C . ( 2014). How ‘ love ’ and ‘ hate ’ differ from ‘ sleep ’: Using combined electro / magnetoencephalographic data to reveal the sources of early cortical responses to emotional words. Human Brain Mapping, 35( 3), 875-888. |
33 | Kissler, J., &Herbert C. (2013). Emotion, Etmnooi, or Emitoon? - Faster lexical access to emotional than to neutral words during reading. Biological Psychology, 92( 3), 464-479. |
34 | Kissler J., Herbert C., Winkler I., & Junghofer M . ( 2009). Emotion and attention in visual word processing-An ERP study. Biological Psychology, 80( 1), 75-83. |
35 | Knickerbocker, H., &Altarriba J. (2013). Differential repetition blindness with emotion and emotion-laden word types. Visual Cognition, 21( 5), 599-627. |
36 | Knickerbocker H., Johnson R. L., & Altarriba J . ( 2014). Emotion effects during reading : Influence of an emotion target word on eye movements and processing. Cognitive & Emotion, 29( 5), 784-806. |
37 | Kuchinke L., Fritsch N., & Mu C. J . ( 2015). Evaluative conditioning of positive and negative valence affects P1 and N1 in verbal processing. Brain Research, 1624 405-413. |
38 | Kuchinke L., Krause B., Fritsch N., & Briesemeister B. B . ( 2014). A familiar font drives early emotional effects in word recognition. Brain and Language, 137 142-147. |
39 | Kuchinke, L., &Mueller,C. J . ( 2019). Are there similarities between emotional and familiarity-based processing in visual word recognition ? Journal of Neurolinguistics, 49( 9), 84-92. |
40 | Kulke L., Bayer M., Grimm A., & Schacht A . ( 2018). Differential effects of learned associations with words and pseudowords on event-related brain potentials. Neuropsychologia, 124, 182-191. |
41 | Palazova M., Mantwill K., Sommer W., & Schacht A . ( 2011). Are effects of emotion in single words non-lexical ? Evidence from event-related brain potentials. Neuropsychologia, 49( 9), 2766-2775. |
42 | Perry C., Willison A. T., Walker M. K., Nankivell M. C., Lawrence L. M., & Alexander T . ( 2019). Working memory load affects early affective responses to concrete and abstract words differently : Evidence from ERPs. Cognitive, Affective, & Behavioral Neuroscience, 19( 2), 377-391. |
43 | Pulvermüller F., Shtyrov Y., & Hauk O . ( 2009). Understanding in an instant : Neurophysiological evidence for mechanistic language circuits in the brain. Brain and Language, 110( 2), 81-94. |
44 | Recio G., Conrad M., Hansen L. B., & Jacobs A. M . ( 2014). On pleasure and thrill: The interplay between arousal and valence during visual word recognition. Brain & Language, 134 34-43. |
45 | Rellecke J., Palazova M., Sommer W., & Schacht A . ( 2011). On the automaticity of emotion processing in words and faces : Event-related brain potentials evidence from a superficial task. Brain and Cognition, 77( 1), 23-32. |
46 | Robinson M. D., Meier B. P., & Kirkeby B. S . ( 2004). Watch out! That could be dangerous: Valence-arousal interactions in evaluative processing. Personality and Social Psychology Bulletin, 30( 11), 1472-1484. |
47 | Rohr, L., &Rahman,R. A . ( 2015). Affective responses to emotional words are boosted in communicative situations. NeuroImage, 109 273-282. |
48 | Rossi V., Vanlessen N., Bayer M., Grass A., Pourtois G., & Schacht A . ( 2017). Motivational salience modulates early visual cortex responses across task sets. Journal of Cognitive Neuroscience, 29( 6), 968-979. |
49 | Russell,J. A . ( 1980). A circumplex model of affect. Journal of Personality and Social Psychology, 39( 6), 1161-1178. |
50 | Schacht A., Adler N., Chen P., Guo T., & Sommer W . ( 2012). Association with positive outcome induces early effects in event-related brain potentials. Biological Psychology, 89( 1), 130-136. |
51 | Schacht, A., &Sommer W. (2009a).Emotions in word and face processing: Early and late cortical responses. Brain and Cognition, 69( 3), 538-550. |
52 | Schacht, A., &Sommer W. (2009b).Time course and task dependence of emotion effects in word processing. Cognitive, Affective and Behavioral Neuroscience, 9( 1), 28-43. |
53 | Schindler, S., &Kissler J. (2016). Selective visual attention to emotional words : Early parallel frontal and visual activations followed by interactive effects in visual cortex. Human Brain Mapping, 37( 10), 3575-3587. |
54 | Schindler S., Vormbrock R., & Kissler J . ( 2019). Emotion in context : How sender predictability and identity affect processing of words as imminent personality feedback. Frontiers in Psychology, 10( 2), 1-16. |
55 | Schindler S., Wegrzyn M., Steppacher I., & Kissler J . ( 2014). It’ s all in your head - how anticipating evaluation affects the processing of emotional trait adjectives. Frontiers in Psychology, 5( 11), 1-10. |
56 | Schindler X. S., Wegrzyn M., Steppacher I., & Kissler J . ( 2015). Perceived communicative context and emotional content amplify visual word processing in the fusiform gyrus. The Journal of Neuroscinec, 35( 15), 6010-6019. |
57 | Scott G. G., O’Donnell P. J., Leuthold H., & Sereno S. C . ( 2009). Early emotion word processing: Evidence from event-related potentials. Biological Psychology, 80( 1), 95-104. |
58 | Tempel K., Kuchinke L., Urton K., Schlochtermeier L. H., Kappelhoff H., & Jacobs A. M . ( 2013). Effects of positive pictograms and words: An emotional word superiority effect ? Journal of Neurolinguistics, 26( 6), 637-648. |
59 | Trauer S. M., Kotz S. A., & Müller M. M . ( 2015). Emotional words facilitate lexical but not early visual processing. BMC Neuroscience, 16( 1), 1-9. |
60 | Wang Y. M., Li T., & Li L . ( 2017). Valence evaluation with approaching or withdrawing cues: Directly testing valence - arousal conflict theory. Cognition and Emotion, 32( 4), 904-912. |
61 | Yao Z., Yu D., Wang L., Zhu X., Guo J., & Wang Z . ( 2016). Effects of valence and arousal on emotional word processing are modulated by concreteness: Behavioral and ERP evidence from a lexical decision task. International Journal of Psychophysiology, 110 231-242. |
62 | Yi S., He W., Zhan L., Qi Z., Zhu C., & Luo W . ( 2015). Emotional noun processing: An ERP study with rapid serial visual presentation. PLoS ONE, 10( 3), e0118924. |
63 | Zhang D., He W., Wang T., Luo W., Zhu X., Gu R., … Luo Y . ( 2014). Three stages of emotional word processing: An ERP study with rapid serial visual presentation. Social Cognitive and Affective Neuroscience, 9( 12), 1897-1903. |
64 | Zhang J., Wu C., Meng Y., & Yuan Z . ( 2017). Different neural correlates of emotion-Label words and emotion- laden words: An ERP study. Frontiers in Human Neuroscience, 11( 9), 455-463. |
65 | Zhang J., Wu C., Yuan Z., & Meng Y . ( 2018). Different early and late processing of emotion-label words and emotion-laden words in second language : An ERP study. Second Language Research, 1-14. |
66 | Zhao W., Chen L., Zhou C., & Luo W . ( 2018). Neural correlates of emotion processing in word detection task. Frontiers in Psychology, 9( 5), 1-9. |
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