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17 - Primate Communication

Affective, Intentional, or Both?

Published online by Cambridge University Press:  28 July 2022

Bennett L. Schwartz
Affiliation:
Florida International University
Michael J. Beran
Affiliation:
Georgia State University
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Summary

The intentional communication of affective states is a central part of human sociality and cognition. Although nonhuman primates (henceforth primates) also signal intentionally, there is a perceived chasm between their intentional versus affective forms of communication. Whereas primate vocalizations and facial expressions are traditionally viewed as involuntary “read-outs” of affective states, gestures are considered as products of intentional control. However, this traditional view is increasingly contentious, given recent evidence of intentional signal production of primate vocalizations and facial expressions, as well as the general void of arousal-based explanations in gesture research. In this chapter, we challenge the perceived dichotomy between affective and intentional communication in primates and propose a dimensional approach, whereby primate signals can be both affective and intentional, regardless of signal modality (tactile, audible, visible) or component (gesture, facial expression, vocalization). We argue that a dimensional approach, which incorporates both affective and intentional components, would improve our knowledge on how affective and cognitive processes have jointly shaped the evolution of primate communication.

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Publisher: Cambridge University Press
Print publication year: 2022

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References

Andrews, K. (2012). Do apes read minds? Toward a new folk psychology. MIT Press.Google Scholar
Anikin, A., & Lima, C. F. (2018). Perceptual and acoustic differences between authentic and acted nonverbal emotional vocalizations. Quarterly Journal of Experimental Psychology, 71, 622641.Google Scholar
Banse, R., & Scherer, K. R. (1996). Acoustic profiles in vocal emotion expression. Journal of Personality and Social Psychology, 70, 614636.Google Scholar
Barrett, L. F., & Bliss‐Moreau, E. (2009). Affect as a psychological primitive. Advances in Experimental Social Psychology, 41, 167218.CrossRefGoogle ScholarPubMed
Batliner, A., Fischer, K., Huber, R., Spilker, J., & Nöth, E. (2000). Desperately seeking emotions: Actors, wizards, and human beings. In Proceedings of the ISCAWorkshop on Speech and Emotion (pp. 195200). Newcastle, Northern Ireland.Google Scholar
Behrens, F., & Kret, M. E. (2019). The interplay between face-to-face contact and feedback on cooperation during real-life interactions. Journal of Nonverbal Behavior, 43, 513528.CrossRefGoogle Scholar
Behrens, F., Snijdewint, J. A., Moulder, R. G., Prochazkova, E., Sjak-Shie, E. E., Boker, S. M., & Kret, M. E. (2019). Physiological synchrony promotes cooperative success in real-life interactions. BioRxiv, 792416.Google Scholar
Benedek, M., & Kaernbach, C. (2011). Physiological correlates and emotional specificity of human piloerection. Biological Psychology, 86, 320329.Google Scholar
Berlo, E. van, Bionda, T., & Kret, M. E. (2020). Attention towards emotions is modulated by familiarity with the expressor: A comparison between bonobos and humans. BioRxiv, 2020.05.11.089813.Google Scholar
Bourjade, M., Meguerditchian, A., Maille, A., Gaunet, F., & Vauclair, J. (2014). Olive baboons, Papio anubis, adjust their visual and auditory intentional gestures to the visual attention of others. Animal Behaviour, 87, 121128.Google Scholar
Brooker, J. S., Webb, C. E., & Clay, Z. (2020). Fellatio among male sanctuary-living chimpanzees during a period of social tension. Behaviour, 158, 7787.Google Scholar
Buck, R., Losow, J. I., Murphy, M. M., & Costanzo, P. (1992). Social facilitation and inhibition of emotional expression and communication. Journal of Personality and Social Psychology, 63, 962968.Google Scholar
Burkart, J. M., & van Schaik, C. P. (2020). Marmoset prosociality is intentional. Animal Cognition, 23, 581594.Google Scholar
Byrne, R. W., Cartmill, E., Genty, E., Graham, K. E., Hobaiter, C., & Tanner, J. (2017). Great ape gestures: Intentional communication with a rich set of innate signals. Animal Cognition, 20, 755769.Google Scholar
Caeiro, C. C., Waller, B. M., Zimmermann, E., Burrows, A. M., & Davila-Ross, M. (2013). OrangFACS: A muscle-based facial movement coding system for orangutans (Pongo spp.). International Journal of Primatology, 34, 115129.CrossRefGoogle Scholar
Call, J., & Tomasello, M. (2007). The gestural communication of apes and monkeys. Lawrence Erlbaum Associates.Google Scholar
Chaplin, G., Jablonski, N. G., Sussman, R. W., & Kelley, E. A. (2014). The role of piloerection in primate thermoregulation. Folia Primatologica, 85, 117.CrossRefGoogle ScholarPubMed
Cheney, D. L., Seyfarth, R. M., & Silk, J. B. (1995). The responses of female baboons (Papio cynocephalus ursinus) to anomalous social interactions: Evidence for causal reasoning? Journal of Comparative Psychology, 109, 134141.Google Scholar
Clay, Z., Archbold, J., & Zuberbühler, K. (2015). Functional flexibility in wild bonobo vocal behaviour. PeerJ, 3, e1124.Google Scholar
Clay, Z., & Zuberbühler, K. (2009). Food-associated calling sequences in bonobos. Animal Behaviour, 77, 13871396.CrossRefGoogle Scholar
Cordoni, G., & Palagi, E. (2011). Ontogenetic trajectories of chimpanzee social play: Similarities with humans. PLoS ONE, 6, e27344.Google Scholar
Crivelli, C., & Fridlund, A. J. (2018). Facial displays are tools for social influence. Trends in Cognitive Sciences, 22, 388399.Google Scholar
Crockford, C., Gruber, T., & Zuberbühler, K. (2018). Chimpanzee quiet hoo variants differ according to context. Royal Society Open Science, 5, 172066.Google Scholar
Crockford, C., Wittig, R. M., Mundry, R., & Zuberbühler, K. (2012). Wild chimpanzees inform ignorant group members of danger. Current Biology, 22, 142146.Google Scholar
Crockford, C., Wittig, R. M., & Zuberbühler, K. (2015). An intentional vocalization draws others’ attention: A playback experiment with wild chimpanzees. Animal Cognition, 18, 581591.Google Scholar
Dael, N., Goudbeek, M., & Scherer, K. R. (2013). Perceived gesture dynamics in nonverbal expression of emotion. Perception, 42, 642657.CrossRefGoogle ScholarPubMed
Dael, N., Mortillaro, M., & Scherer, K. R. (2012). Emotion expression in body action and posture. Emotion, 12, 10851101.Google Scholar
Darwin, C. (1872). The expression of the emotions in man and animals (2nd ed.). John Murray.Google Scholar
Davila-Ross, M., Jesus, G., Osborne, J., & Bard, K. A. (2015). Chimpanzees (Pan troglodytes) produce the same types of “laugh faces” when they emit laughter and when they are silent. PLoS ONE, 10, e0127337.Google Scholar
Davila Ross, M., Owren, M. J., & Zimmermann, E. (2009). Reconstructing the evolution of laughter in great apes and humans. Current Biology, 19, 11061111.Google Scholar
de Waal, F. B. M. (1988). The communicative repertoire of captive bonobos (Pan paniscus), compared to that of chimpanzees. Behavior, 106, 183251.CrossRefGoogle Scholar
de Waal, F. B. M. (2011). What is an animal emotion? Annals of the New York Academy of Sciences, 1224, 191206.Google Scholar
Demuru, E., Ferrari, P. F., & Palagi, E. (2015). Emotionality and intentionality in bonobo playful communication. Animal Cognition, 18, 333344.Google Scholar
Dennett, D. C. (1983). Intentional systems in cognitive ethology: The “Panglossian paradigm” defended. Behavioral and Brain Sciences, 6, 343355.CrossRefGoogle Scholar
Dezecache, G., Zuberbühler, K., Davila-Ross, M., & Dahl, C. D. (2017). Skin temperature changes in wild chimpanzees upon hearing vocalizations of conspecifics. Royal Society Open Science, 4, 160816.Google Scholar
Duncan, S., & Barrett, L. F. (2007). Affect is a form of cognition: A neurobiological analysis. Cognition & Emotion, 21, 11841211.Google Scholar
Eisenberg, N. (2000). Emotion, regulation, and moral development. Annual Review of Psychology, 51, 665697.Google Scholar
Ekman, P. (1992). An argument for basic emotions. Cognition and Emotion, 6, 169200.Google Scholar
Ekman, P., Friesen, W. V, & Hager, J. C. (2002). Facial action coding system. Research Nexus.Google Scholar
Fedurek, P., Slocombe, K. E., Hartel, J. A., & Zuberbühler, K. (2015). Chimpanzee lip-smacking facilitates cooperative behaviour. Scientific Reports, 5, 13460.Google Scholar
Fedurek, P., Slocombe, K. E., & Zuberbühler, K. (2015). Chimpanzees communicate to two different audiences during aggressive interactions. Animal Behaviour, 110, 2128.Google Scholar
Feldman Barrett, L. (2017). How emotions are made: The secret life of the brain. Houghton Mifflin Harcourt.Google Scholar
Feldman Barrett, L., Barsalou, L., Fugate, J., Lindquist, K., Mesquita, B., Nie-Denthal, P., … Barrett, F. (2011). Emotions are real. Emotion, 12, 413429.CrossRefGoogle Scholar
Fichtel, C., & Hammerschmidt, K. (2003). Responses of squirrel monkeys to their experimentally modified mobbing calls. The Journal of the Acoustical Society of America, 113, 29272932.Google Scholar
Flack, J. C., Jeannotte, L. A., & de Waal, F. (2004). Play signaling and the perception of social rules by juvenile chimpanzees (Pan troglodytes). Journal of Comparative Psychology, 118, 149159.CrossRefGoogle ScholarPubMed
Freeman, W. J. (2000). Emotion is essential to all intentional behaviors. In Emotion, development, and self-organization (pp. 209235). Cambridge University Press.Google Scholar
Fröhlich, M., Kuchenbuch, P., Müller, G., Fruth, B., Furuichi, T., Wittig, R. M., & Pika, S. (2016). Unpeeling the layers of language: Bonobos and chimpanzees engage in cooperative turn-taking sequences. Scientific Reports, 6, 25887.Google Scholar
Fröhlich, M., Müller, G., Zeiträg, C., Wittig, R. M., & Pika, S. (2020). Begging and social tolerance: Food solicitation tactics in young chimpanzees (Pan troglodytes) in the wild. Evolution and Human Behavior, 41, 126135.Google Scholar
Fröhlich, M., Sievers, C., Townsend, S. W., Gruber, T., & van Schaik, C. P. (2019). Multimodal communication and language origins: Integrating gestures and vocalizations. Biological Reviews, 94, 18091829.Google Scholar
Fröhlich, M., Wittig, R. M., & Pika, S. (2016a). Play-solicitation gestures in chimpanzees in the wild: Flexible adjustment to social circumstances and individual matrices. Royal Society Open Science, 3, 160278.CrossRefGoogle ScholarPubMed
Fröhlich, M., Wittig, R. M., & Pika, S. (2016b). Should I stay or should I go? Initiation of joint travel in mother–infant dyads of two chimpanzee communities in the wild. Animal Cognition, 19, 483500.Google Scholar
Gaunet, F., & Deputte, B. L. (2011). Functionally referential and intentional communication in the domestic dog: Effects of spatial and social contexts. Animal Cognition, 14, 849860.CrossRefGoogle ScholarPubMed
Geissmann, T. (1984). Inheritance of song parameters in the gibbon song, analysed in 2 hybrid gibbons (Hylobates pileatus × H.lar). Folia Primatologica, 42, 216235.CrossRefGoogle Scholar
Genty, E. (2019). Vocal–gestural combinations in infant bonobos: New insights into signal functional specificity. Animal Cognition, 22, 505518.Google Scholar
Genty, E., Breuer, T., Hobaiter, C., & Byrne, R. W. (2009). Gestural communication of the gorilla (Gorilla gorilla): Repertoire, intentionality and possible origins. Animal Cognition, 12, 527546.Google Scholar
Genty, E., Clay, Z., Hobaiter, C., & Zuberbühler, K. (2014). Multi-modal use of a socially directed call in bonobos. PLoS ONE, 9, e84738.Google Scholar
Genty, E., Neumann, C., & Zuberbühler, K. (2015). Complex patterns of signalling to convey different social goals of sex in bonobos, Pan paniscus. Scientific Reports, 5, 113.Google Scholar
Genty, E., & Zuberbühler, K. (2014). Spatial reference in a bonobo gesture. Current Biology, 24, 16011605.CrossRefGoogle Scholar
Genty, E., & Zuberbühler, K. (2015). Iconic gesturing in bonobos. Communicative & Integrative Biology, 8, e992742.Google Scholar
Gouzoules, S., Gouzoules, H., & Marler, P. (1984). Rhesus monkey (Macaca mulatta) screams: Representational signalling in the recruitment of agonistic aid. Animal Behaviour, 32, 182193.Google Scholar
Graham, K. E., Hobaiter, C., Ounsley, J., Furuichi, T., & Byrne, R. W. (2018). Bonobo and chimpanzee gestures overlap extensively in meaning. PLoS Biology, 16, e2004825.Google Scholar
Graham, K. E., Wilke, C., Lahiff, N. J., & Slocombe, K. E. (2019). Scratching beneath the surface: Intentionality in great ape signal production. Philosophical Transactions of the Royal Society B: Biological Sciences, 375, 20180403.CrossRefGoogle ScholarPubMed
Grandjean, D., Bänziger, T., & Scherer, K. R. (2006). Intonation as an interface between language and affect. Progress in Brain Research, 156, 235247.CrossRefGoogle ScholarPubMed
Gross, J. J., & Levenson, R. W. (1997). Hiding feelings: The acute effects of inhibiting negative and positive emotion. Journal of Abnormal Psychology, 106, 95103.Google Scholar
Gruber, T., & Grandjean, D. (2017). A comparative neurological approach to emotional expressions in primate vocalizations. Neuroscience & Biobehavioral Reviews, 73, 182190.Google Scholar
Gruber, T., & Zuberbühler, K. (2013). Vocal recruitment for joint travel in wild chimpanzees. PLoS ONE, 8, e76073.Google Scholar
Gruber, T., Zuberbühler, K., Clement, F., & van Schaik, C. (2015). Apes have culture but may not know that they do. Frontiers in Psychology, 6, 91.Google Scholar
Halina, M., Rossano, F., & Tomasello, M. (2013). The ontogenetic ritualization of bonobo gestures. Animal Cognition, 16, 653666.Google Scholar
Hammerschmidt, K., & Fischer, J. (2008). Constraints in primate vocal production. In Oller, K. & Griebel, U. (Eds.), The evolution of communicative creativity: From fixed signals to contextual flexibility (pp. 93119). MIT Press.Google Scholar
Haney, M., & Miczek, K. A. (1993). Ultrasounds during agonistic interactions between female rats (Rattus norvegicus). Journal of Comparative Psychology, 107, 373379.CrossRefGoogle ScholarPubMed
Hanya, G. (2009). Effects of food type and number of feeding sites in a tree on aggression during feeding in wild Macaca fuscata. International Journal of Primatology, 30, 569581.Google Scholar
Heesen, R., Bangerter, A., Zuberbühler, K., Iglesias, K., Rossano, F., Guéry, J. P., & Genty, E. (2020). Bonobos engage in joint commitment. Science Advances, 6, eabd1306.Google Scholar
Heesen, R., Genty, E., Rossano, F., Zuberbühler, K., & Bangerter, A. (2017). Social play as joint action: A framework to study the evolution of shared intentionality as an interactional achievement. Learning and Behavior, 45, 390405.CrossRefGoogle Scholar
Heesen, R., Hobaiter, C., Ferrer-I-Cancho, R., & Semple, S. (2019). Linguistic laws in chimpanzee gestural communication. Proceedings of the Royal Society B: Biological Sciences, 286, 20182900.Google Scholar
Hobaiter, C., & Byrne, R. W. (2011a). Serial gesturing by wild chimpanzees: Its nature and function for communication. Animal Cognition, 14, 827838.Google Scholar
Hobaiter, C., & Byrne, R. W. (2011b). The gestural repertoire of the wild chimpanzee. Animal Cognition, 14, 745767.CrossRefGoogle ScholarPubMed
Hobaiter, C., & Byrne, R. W. (2012). Gesture use in consortship: Wild chimpanzees’ use of gesture for an “evolutionarily urgent” purpose. In Pika, S. & Liebal, K. (Eds.), Development in Primate Gesture Research (pp. 129146). John Benjamins Press.Google Scholar
Hobaiter, C., & Byrne, R. W. (2014). The meanings of chimpanzee gestures. Current Biology, 24(14), 15961600.Google Scholar
Hobaiter, C., Byrne, R. W., & Zuberbühler, K. (2017). Wild chimpanzees’ use of single and combined vocal and gestural signals. Behavioral Ecology and Sociobiology, 71, 96.CrossRefGoogle ScholarPubMed
Hobaiter, C., Leavens, D. A., & Byrne, R. W. (2014). Deictic gesturing in wild chimpanzees (Pan troglodytes)? Some possible cases. Journal of Comparative Psychology, 128, 8287.Google Scholar
Hopkins, W., Taglialatela, J., & Leavens, W. (2011). Do chimpanzees have voluntary control of their facial expressions and vocalizations? In Vilain, A., Schwartz, J.-L., Abry, C., & Vauclair, J. (Eds.), Primate communication and human language – Vocalization, gestures, imitation and deixis in humans and non-humans (pp. 7188). John Benjamins Publishing Company.Google Scholar
Hostetter, A. B., Cantero, M., & Hopkins, W. D. (2001). Differential use of vocal and gestural communication by chimpanzees (Pan troglodytes) in response to the attentional status of a human (Homo sapiens). Journal of Comparative Psychology, 115, 337343.Google Scholar
Ioannou, S., Gallese, V., & Merla, A. (2014). Thermal infrared imaging in psychophysiology: Potentialities and limits. Psychophysiology, 51, 951963.Google Scholar
Jürgens, U., Maurus, M., Ploog, D., & Winter, P. (1967). Vocalization in the squirrel monkey (Saimiri sciureus) elicited by brain stimulation. Experimental Brain Research, 4, 114117.CrossRefGoogle ScholarPubMed
Juslin, P. N., Laukka, P., & Bänziger, T. (2018). The mirror to our soul? Comparisons of spontaneous and posed vocal expression of emotion. Journal of Nonverbal Behavior, 42, 140.Google Scholar
Kano, F., Hirata, S., Deschner, T., Behringer, V., & Call, J. (2016). Nasal temperature drop in response to a playback of conspecific fights in chimpanzees: A thermo-imaging study. Physiology & Behavior, 155, 8394.Google Scholar
Kret, M. E. (2015). Emotional expressions beyond facial muscle actions: A call for studying autonomic signals and their impact on social perception. Frontiers in Psychology, 6, 711.Google Scholar
Kret, M. E., Prochazkova, E., Sterck, E. H. M., & Clay, Z. (2020). Emotional expressions in human and non-human great apes. Neuroscience & Biobehavioral Reviews, 115, 378395.Google Scholar
Kret, M. E., Massen, J. J. M., & De Waal, F. B. M. (2022). My fear is not, and never will be, your fear: On emotions and feelings in animals. Affectice Science, 1, 18.Google Scholar
Kunzmann, U., Kupperbusch, C. S., & Levenson, R. W. (2005). Behavioral inhibition and amplification during emotional arousal: A comparison of two age groups. Psychology and Aging, 20, 144158.Google Scholar
Leavens, D. A., Hopkins, W. D., & Bard, K. A. (1996). Indexical and referential pointing in chimpanzees (Pan troglodytes). Journal of Comparative Psychology, 110(4), 346353.CrossRefGoogle ScholarPubMed
Leavens, D. A., Hopkins, W. D., & Thomas, R. K. (2004). Referential communication by chimpanzees (Pan troglodytes). Journal of Comparative Psychology, 118, 4857.Google Scholar
Leavens, D. A., Hostetter, A. B., Wesley, M. J., & Hopkins, W. D. (2004). Tactical use of unimodal and bimodal communication by chimpanzees, Pan troglodytes. Animal Behaviour, 67(3), 467476.Google Scholar
Leavens, D. A., Russell, J. L., & Hopkins, W. D. (2005). Intentionality as measured in the persistence and elaboration of communication by chimpanzees (Pan troglodytes). Child Development, 76, 291306.Google Scholar
Liebal, K., Call, J., & Tomasello, M. (2004a). Use of gesture sequences in chimpanzees. American Journal of Primatology, 64, 377396.Google Scholar
Liebal, K., Call, J., Tomasello, M., & Pika, S. (2004b). To move or not to move: How apes adjust to the attentional state of others. Interaction Studies, 5, 199219.Google Scholar
Liebal, K., & Oña, L. (2018). Mind the gap – Moving beyond the dichotomy between intentional gestures and emotional facial and vocal signals of nonhuman primates. Interaction Studies. Social Behaviour and Communication in Biological and Artificial Systems, 19, 121135.Google Scholar
Liebal, K., Waller, B. M., Slocombe, K. E., & Burrows, A. M. (2013). Primate communication: A multimodal approach. Cambridge University Press.Google Scholar
Maiese, M. (2014). How can emotions be both cognitive and bodily? Phenomenology and the Cognitive Sciences, 13, 513531.Google Scholar
Marler, P., & Evans, C. (2008). Bird calls: Just emotional displays or something more? Ibis, 138, 2633.Google Scholar
Marler, P., Evans, S., & Hauser, M. (1992). Animal signals: Motivational, referential, or both? In Papousek, H., Jürgens, U., & Papoušek, M. (Eds.), Nonverbal vocal communication: Comparative and developmental approaches (pp. 6686). Cambridge University Press.Google Scholar
Marshall-Pescini, S., Ceretta, M., & Prato-Previde, E. (2014). Do domestic dogs understand human actions as goal-directed? PLoS ONE, 9(9), e106530.Google Scholar
Massen, J. J. M., Behrens, F., Martin, J. S., Stocker, M., & Brosnan, S. F. (2019). A comparative approach to affect and cooperation. Neuroscience & Biobehavioral Reviews, 107, 370387.Google Scholar
Mazzini, F., Townsend, S. W., Virányi, Z., & Range, F. (2013). Wolf howling is mediated by relationship quality rather than underlying emotional stress. Current Biology, 23, 16771680.Google Scholar
Melis, A. P., & Tomasello, M. (2019). Chimpanzees (Pan troglodytes) coordinate by communicating in a collaborative problem-solving task. Proceedings of the Royal Society B: Biological Sciences, 286, 20190408.CrossRefGoogle Scholar
Meyer, D., Hodges, J. K., Rinaldi, D., Wijaya, A., Roos, C., & Hammerschmidt, K. (2012). Acoustic structure of male loud-calls support molecular phylogeny of Sumatran and Javanese leaf monkeys (genus Presbytis). BMC Evolutionary Biology, 12, 16.Google Scholar
Namba, S., Kabir, R. S., Miyatani, M., & Nakao, T. (2018). Dynamic displays enhance the ability to discriminate genuine and posed facial expressions of emotion. Frontiers in Psychology, 9, 672.Google Scholar
Nishida, T. (1997). Sexual behavior of adult male chimpanzees of the Mahale Mountains national park, Tanzania. Primates, 38, 379398.Google Scholar
Owren, M. J., Amoss, R. T., & Rendall, D. (2011). Two organizing principles of vocal production: Implications for nonhuman and human primates. American Journal of Primatology, 73, 530544.CrossRefGoogle ScholarPubMed
Owren, M. J., & Rendall, D. (1997). An affect-conditioning model of nonhuman primate vocal signaling. In Owings, D. H., Beecher, M. D., & Thompson, N. S. (Eds.), Communication: Perspectives in ethology, vol. 12. (pp. 299346). Springer.Google Scholar
Palagi, E., Antonacci, D., & Cordoni, G. (2007). Fine-tuning of social play in juvenile lowland gorillas (Gorilla gorilla gorilla). Developmental Psychobiology, 49, 433445.Google Scholar
Palagi, E., Burghardt, G. M., Smuts, B., Cordoni, G., Dall’Olio, S., Fouts, H. N., … Pellis, S. M. (2015). Rough-and-tumble play as a window on animal communication. Biological Reviews, 91, 311327.Google Scholar
Palagi, E., Norscia, I., & Spada, G. (2014). Relaxed open mouth as a playful signal in wild ring-tailed lemurs. American Journal of Primatology, 76, 10741083.CrossRefGoogle ScholarPubMed
Panksepp, J. (2011). Cross-species affective neuroscience decoding of the primal affective experiences of humans and related animals. PLoS ONE, 6, e21236.Google Scholar
Parr, L. (2001). Cognitive and physiological markers of emotional awareness in chimpanzees (Pan troglodytes). Animal Cognition, 4, 223229.Google Scholar
Parr, L., Cohen, M., & Waal, F. de. (2005). Influence of social context on the use of blended and graded facial displays in chimpanzees. International Journal of Primatology, 26, 73103.Google Scholar
Parr, L., Hopkins, W. D., & DeWaal, F. B. M. (1998). The perception of facial expressions by chimpanzees, Pan troglodytes. Evolution of Communication, 2, 123.Google Scholar
Parr, L., & Waller, B. M. (2006). Understanding chimpanzee facial expression: Insights into the evolution of communication. Social Cognitive and Affective Neuroscience, 1, 221228.Google Scholar
Parr, L., Waller, B. M., Burrows, A. M., Gothard, K. M., & Vick, S. J. (2010). MaqFACS: A muscle-based facial movement coding system for the rhesus macaque. American Journal of Physical Anthropology, 143, 625630.CrossRefGoogle ScholarPubMed
Parr, L., Waller, B. M., & Heintz, M. (2008). Facial expression categorization by chimpanzees using standardized stimuli. Emotion, 8, 216231.Google Scholar
Parr, L., Waller, B. M., & Vick, S. J. (2007). New developments in understanding emotional facial signals in chimpanzees. Current Directions in Psychological Science, 16, 117122.Google Scholar
Pellis, S. M., & Pellis, V. C. (1996). On knowing it’s only play: The role of play signals in play fighting. Aggression and Violent Behavior, 1, 249268.Google Scholar
Pika, S., & Bugnyar, T. (2011). The use of referential gestures in ravens (Corvus corax) in the wild. Nature Communications, 2, 560.Google Scholar
Pika, S., & Mitani, J. C. (2009). The directed scratch: Evidence for a referential gesture in chimpanzees? In Botha, R. & Knight, C. (Eds.), The prehistory of language (pp. 166180). Oxford University Press.Google Scholar
Planalp, S. (2001). Communicating emotions. Cambridge University Press.Google Scholar
Pollick, A. S., & De Waal, F. B. M. (2007). Ape gestures and language evolution. Proceedings of the National Academy of Sciences, 104, 81848189.Google Scholar
Rendall, D., Rodman, P. S., & Emond, R. E. (1996). Vocal recognition of individuals and kin in free-ranging rhesus monkeys. Animal Behaviour, 51, 10071015.Google Scholar
Robbins, M. M. (2008). Feeding competition and agonistic relationships among Bwindi gorilla beringei. International Journal of Primatology, 29, 9991018.Google Scholar
Romanski, L. M., Averbeck, B. B., & Diltz, M. (2005). Neural representation of vocalizations in the primate ventrolateral prefrontal cortex. Journal of Neurophysiology, 93, 734747.CrossRefGoogle ScholarPubMed
Russell, J. A., Bachorowski, J.-A., & Fernández-Dols, J.-M. (2003). Facial and vocal expressions of emotion. Annual Review of Psychology, 54, 329349.Google Scholar
Sander, D. (2013). Models of emotion: The affective neuroscience approach. In Armony, J. & Vuilleumier, P. (Eds.), The Cambridge handbook of human affective neuroscience (pp. 553). Cambridge University Press.Google Scholar
Scarantino, A., & Clay, Z. (2015). Contextually variable signals can be functionally referential. Animal Behaviour, 100, e1e8.Google Scholar
Scheider, L., Waller, B. M., Oña, L., Burrows, A. M., & Liebal, K. (2016). Social use of facial expressions in hylobatids. PLoS ONE, 11, e0151733.Google Scholar
Schel, A. M., Townsend, S. W., Machanda, Z., Zuberbühler, K., & Slocombe, K. E. (2013). Chimpanzee alarm call production meets key criteria for intentionality. PLoS ONE, 8, e76674.Google Scholar
Scherer, K. R. (1986). Vocal affect expression: A review and a model for future research. Psychological Bulletin, 99, 143165.Google Scholar
Scherer, K. R. (2013). Vocal markers of emotion: Comparing induction and acting elicitation. Computer Speech & Language, 27, 4058.Google Scholar
Seyfarth, R. M., & Cheney, D. L. (2003). Meaning and emotion in animal vocalizations. Annals of the New York Academy of Sciences, 1000, 3255.CrossRefGoogle ScholarPubMed
Seyfarth, R. M., & Cheney, D. L. (2017). Precursors to language: Social cognition and pragmatic inference in primates. Psychonomic Bulletin & Review, 24, 7984.Google Scholar
Seyfarth, R. M., Cheney, D. L., Bergman, T., Fischer, J., Zuberbühler, K., & Hammerschmidt, K. (2010). The central importance of information in studies of animal communication. Animal Behaviour, 80, 38.Google Scholar
Seyfarth, R. M., Cheney, D. L., & Marler, P. (1980). Vervet monkey alarm calls: Semantic communication in a free-ranging primate. Animal Behaviour, 28, 10701094.Google Scholar
Siegel, E. H., Sands, M. K., Van den Noortgate, W., Condon, P., Chang, Y., Dy, J., … Barrett, L. F. (2018). Emotion fingerprints or emotion populations? A meta-analytic investigation of autonomic features of emotion categories. Psychological Bulletin, 144, 343393.Google Scholar
Slocombe, K., Kaller, T., Call, J., & Zuberbühler, K. (2010). Chimpanzees extract social information from agonistic screams. PLoS ONE, 5(7), e11473. https://doi.org/10.1371/journal.pone.0011473Google Scholar
Slocombe, K., Townsend, S. W., & Zuberbühler, K. (2009). Wild chimpanzees (Pan troglodytes schweinfurthii) distinguish between different scream types: Evidence from a playback study. Animal Cognition, 12, 441449.Google Scholar
Slocombe, K., & Zuberbühler, K. (2005). Agonistic screams in wild chimpanzees (Pan troglodytes schweinfurthii) vary as a function of social role. Journal of Comparative Psychology, 119, 6777.Google Scholar
Slocombe, K., & Zuberbühler, K. (2006). Food-associated calls in chimpanzees: responses to food types or food preferences? Animal Behaviour, 72, 989999.Google Scholar
Slocombe, K., & Zuberbühler, K. (2007). Chimpanzees modify recruitment screams as a function of audience composition. Proceedings of the National Academy of Sciences of the United States of America, 104, 1722817233.Google Scholar
Smith, P. K., & Boulton, M. (1990). Rough-and-tumble play, aggression and dominance: Perception and behaviour in children’s encounters. Human Development, 33, 271282.Google Scholar
Tamir, D. I., Thornton, M. A., Contreras, J. M., & Mitchell, J. P. (2016). Neural evidence that three dimensions organize mental state representation: Rationality, social impact, and valence. Proceedings of the National Academy of Sciences of the United States of America, 113, 194199.Google Scholar
Tattersall, G. J. (2016). Infrared thermography: A non-invasive window into thermal physiology. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, 202, 7898.Google Scholar
Thinh, V. N., Hallam, C., Roos, C., & Hammerschmidt, K. (2011). Concordance between vocal and genetic diversity in crested gibbons. BMC Evolutionary Biology, 11, 36.Google Scholar
Tomasello, M. (2008). Origins of human communication. MIT Press.Google Scholar
Townsend, S. W., Koski, S. E., Byrne, R. W., Slocombe, K., Bickel, B., Boeckle, M., … Manser, M. B. (2017). Exorcising Grice’s ghost: An empirical approach to studying intentional communication in animals. Biological Reviews, 92, 14271433.Google Scholar
Townsend, S. W., & Manser, M. B. (2013). Functionally referential communication in mammals: The past, present and the future. Ethology, 119, 111.Google Scholar
Tsao, D. Y., Moeller, S., & Freiwald, W. A. (2008). Comparing face patch systems in macaques and humans. Proceedings of the National Academy of Sciences of the United States of America, 105, 1951419519.Google Scholar
Turner, J. H. (1996). The evolution of emotions in humans: A Darwinian-Durkheimian analysis. Journal for the Theory of Social Behaviour, 26, 133.Google Scholar
Vail, A. L., Manica, A., & Bshary, R. (2013). Referential gestures in fish collaborative hunting. Nature Communications, 4(1), 1765. https://doi.org/10.1038/ncomms2781Google Scholar
Waller, B. M., Caeiro, C. C., & Davila-Ross, M. (2015). Orangutans modify facial displays depending on recipient attention. PeerJ, 3, e827.Google Scholar
Waller, B. M., & Cherry, L. (2012). Facilitating play through communication: Significance of teeth exposure in the gorilla play face. American Journal of Primatology, 74, 157164.Google Scholar
Waller, B. M., & Dunbar, R. I. M. (2005). Differential behavioural effects of silent bared teeth display and relaxed open mouth display in chimpanzees (Pan troglodytes). Ethology, 111, 129142.Google Scholar
Waller, B. M., Lembeck, M., Kuchenbuch, P., Burrows, A. M., & Liebal, K. (2012). GibbonFACS: A muscle-based facial movement coding system for Hylobatids. International Journal of Primatology, 33, 809821.Google Scholar
Waller, B. M., Liebal, K., Burrows, A. M., & Slocombe, K. E. (2013). How can a multimodal approach to primate communication help us understand the evolution of communication? Evolutionary Psychology, 11, 147470491301100.Google Scholar
Waller, B. M., Whitehouse, J., & Micheletta, J. (2016). Macaques can predict social outcomes from facial expressions. Animal Cognition, 19, 10311036.Google Scholar
Wharton, T. (2009). Pragmatics and non-verbal communication. Cambridge University Press.Google Scholar
Wheeler, B. C., & Fischer, J. (2015). The blurred boundaries of functional reference: A response to Scarantino & Clay. Animal Behaviour, 100, e9e13.Google Scholar
Wheeler, B. C., Tiddi, B., & Heistermann, M. (2014). Competition-induced stress does not explain deceptive alarm calling in tufted capuchin monkeys. Animal Behaviour, 93, 4958.Google Scholar
Zajonc, R. B. (1965). Social facilitation. Science, 149, 269274.Google Scholar
Zuberbühler, K. (2003). Referential signaling in non-human primates: Cognitive precursors and limitations for the evolution of language. In Slater, P. J. B., Rosenblatt, J. S., Snowdon, C. T., & Roper, T. J. (Eds.), Advances in the study of behavior (pp. 265307). Elsevier Academic Press.Google Scholar
Zuberbühler, K. (2008). Audience effects. Current Biology, 18, R189R190.Google Scholar
Zuberbühler, K., Cheney, D. L., & Seyfarth, R. M. (1999). Conceptual semantics in a nonhuman primate. Journal of Comparative Psychology, 113, 3342.Google Scholar

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