Abstract
Evolutionarily, empathy is central to making adaptive evaluations in social environments, bonding with others, and caring for them. In humans, empathic arousal and feelings of concern for others provide the building blocks for the development of morality. Empathic concern emerges early in life in preverbal infants and requires only a minimal capacity for mindreading and self-awareness. In this chapter, it is proposed that empathy is a capacity shared by humans and other mammals, which is dependent on neural circuits that have evolved in the context of parental care and living in social groups. Empathy-based behaviors have afforded unique survival and reproductive advantages and have co-opted primitive homeostatic processes involved in reward and pain systems in order to facilitate various social attachment processes. Studies in affective and social neuroscience are discussed to document that the same network of regions that are involved in physical pain is also responsive to the perception of pain in others as well as social pain, such as social exclusion, grief, or extreme sadness. The sharing of vicarious negative arousal provides a strong signal that can promote empathic concern and caring for others. To be motivated to help another, one needs to be affectively and empathically aroused and to anticipate the cessation of the mutually experienced personal distress. Finally, drawing on neuroimaging studies with juvenile and adult psychopaths, it is argued that the lack of sensitivity to others’ suffering contributes to a callous disregard for the welfare of others and increases vulnerability to amoral conduct.
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References
Aharoni E, Sinnott-Armstrong W, Kiehl KA (2012) Can psychopathic offenders discern moral wrongs? A new look at the moral/conventional distinction. J Abnorm Psychol 121:484–497
Anderson ML (2010) Neural reuse: a fundamental organizational principle of the brain. Behav Brain Sci 33:245–313
Aniskiewicz AS (1979) Autonomic components of vicarious conditioning and psychopathy. J Clin Psychol 35:60–67
Bakermans-Kranenburg MJ, van Ijzendoorn MH (2008) Oxytocin receptor (OXTR) and serotonin transporter (5-HTT) genes associated with observed parenting. Soc Neurosci 3:128–134
Bartz JA, Zaki J, Bolger N, Hollander E, Ludwig NN, Kolevzon A, Ochsner KN (2010) Oxytocin selectively improves empathic accuracy. Psychol Sci 114:1426–1428
Batson CD, Early S, Salvarani H (1997) Perspective taking: imagining how another feels versus imagining how you would feel. Pers Soc Psychol Bull 23:751–758
Bechara A, Tranel D, Damasio H, Damasio AR (1996) Failure to respond autonomically to anticipated future outcomes following damage to the prefrontal cortex. Cereb Cortex 6:215–225
Ben-Ami Bartal I, Decety J, Mason P (2011) Empathy and pro-social behavior in rats. Science 334:1427–1430
Blair RJR (1995) A cognitive developmental approach to morality: investigating the psychopath. Cognition 57:1–29
Blair RJR (1999) Responsiveness to distress cues in the child with psychopathic tendencies. Pers Individ Differ 27:135–145
Blair RJR (2011) Should affective arousal be grounded in perception-action coupling? Emotion Rev 3:109–110
Blakemore SJ, Boyer P, Pachot-Clouard M, Meltzoff A, Segebarth C, Decety J (2003) The detection of contingency and animacy from simple animations in the human brain. Cereb Cortex 13:837–844
Blasi A, Mercure E, Lloyd-Fox S, Thomson A, Brammer M, Sauter D, Deeley Q, Barker GJ, Renvall V, Deoni S, Gasston D, Williams SCR, Johnson MH, Simmons A, Murphy DGM (2011) Early specialization for voice and emotion processing in the infant brain. Curr Biol 21:1–5
Brown JL, Sheffield D, Leary M, Robinson ME (2003) Social support and experimental pain. Psychosom Med 65:276–283
Buckholtz JW, Treadway MT, Cowan RL, Woodward ND, Benning SD, Li R, Ansari MS, Baldwin RM, Shelby ES, Smith CE, Cole D, Kessler RM, Zald DH (2010) Mesolimbic dopamine reward system hypersensitivity in individuals with psychopathic traits. Nat Neurosci 13:419–421
Carden SE, Barr GA, Hofer MA (1991) Differential effects of specific opioid receptor agonists on rat pup isolation calls. Brain Res Dev Brain Res 62:17–22
Carter CS (1998) Neuroendocrine perspectives on social attachment and love. Psychoneuroendocrinology 23:779–818
Cheng Y, Lin C, Liu HL, Hsu Y, Lim K, Hung D, Decety J (2007) Expertise modulates the perception of pain in others. Curr Biol 17:1708–1713
Cheng Y, Chen CY, Lin CP, Chou KH, Decety J (2010) Love hurts: an fMRI study. Neuroimage 51:923–929
Cheng Y, Hung A, Decety J (2012a) Dissociation between affective sharing and emotion understanding in juvenile psychopaths. Dev Psychopathol 24:623–636
Cheng Y, Chen HY, Wang PY, Decety J (2012b) Voice and emotion processing in the human neonatal brain. J Cogn Neurosci 24:1411–1419
Church RM (1959) Emotional reactions of rats to the pain of others. J Comp Physiol Psychol 52:132–134
Cikara M, Botvinick MM, Fiske ST (2011) Us versus them: social identity shapes responses to intergroup competition and harm. Psychol Sci 22:306–313
Clay Z, de Waal FBM (2013) Bonobos respond to distress in others: consolation across the age spectrum. PLoS One 8(1):e55206
Coan JA, Schaefer HS, Davidson RJ (2006) Lending a hand – social regulation of the neural response to threat. Psychol Sci 17:1032–1039
Decety J (2010a) The neurodevelopment of empathy in humans. Dev Neurosci 32:257–267
Decety J (2010b) To what extent is the experience of empathy mediated by shared neural circuits? Emotion Rev 2:204–207
Decety J (2011a) Promises and challenges of the neurobiological approach to empathy. Emotion Rev 3:115–116
Decety J (2011b) The neuroevolution of empathy. Ann N Y Acad Sci 1231:35–45
Decety J, Grèzes J (2006) The power of simulation: imagining one’s own and other’s behavior. Brain Res 1079:4–14
Decety J, Sveltova M (2012) Putting together phylogenetic and ontogenetic perspectives on empathy. Dev Cogn Neurosci 2:1–24
Decety J, Echols SC, Correll J (2009a) The blame game: the effect of responsibility and social stigma on empathy for pain. J Cogn Neurosci 22:985–997
Decety J, Michalska KJ, Akitsuki Y, Lahey B (2009b) Atypical empathic responses in adolescents with aggressive conduct disorder: a functional MRI investigation. Biol Psychol 80:203–211
Decety J, Yang CY, Cheng Y (2010) Physicians down regulate their pain empathy response: an event-related brain potential study. Neuroimage 50:1676–1682
Decety J, Michalska KJ, Kinzler KD (2012a) The contribution of emotion and cognition to moral sensitivity: a neurodevelopmental study. Cereb Cortex 22:209–220
Decety J, Norman GJ, Berntson GG, Cacioppo JT (2012b) A neurobehavioral evolutionary perspective on the mechanisms underlying empathy. Prog Neurobiol 98:38–48
Decety J, Skelly LR, Kiehl KA (2013) Brain response to empathy-eliciting scenarios involving pain in incarcerated individuals with psychopathy. JAMA Psychiatry 70:638–645
DeWall CN, MacDonald G, Webster GD, Masten C, Baumeister RF, Powell C, Combs D, Schurtz DR, Stillman TF, Tice DM, Eisenberger NI (2010) Tylenol reduces social pain: behavioral and neural evidence. Psychol Sci 21:931–937
Domes G, Heinrichs M, Michel A, Berger C, Herpertz SC (2007) Oxytocin attenuates amygdala responses to emotional faces regardless of valence. Biol Psychiatry 62:1187–1190
Dondi M, Simion F, Caltran G (1999) Can newborns discriminate between their own cry and the cry of another newborn infant? Dev Psychol 35:418–426
Drevets WC, Price JL, Simpson JR, Todd RD, Reich T, Vannier M, Raichle ME (1997) Subgenual prefrontal cortex abnormalities in mood disorders. Nature 386:824–827
Ebisch SJH, Ferri F, Salone A, Perrucci MG, D’Amico L, Ferro FM, Romani GL, Gallese V (2011) Differential involvement of somatosensory and interoceptive cortices during the observation of affective touch. J Cogn Neurosci 23:1808–1822
Echols S, Correll J (2012) It’s more than skin deep: empathy and helping behavior across social groups. In: Decety J (ed) Empathy – from bench to bedside. MIT Press, Cambridge, pp 55–71
Eisenberger N (2011) Why rejection hurts: what social neuroscience has revealed about the brain’s response to social rejection. In: Decety J, Cacioppo JT (eds) The Oxford handbook of social neuroscience. Oxford University Press, Oxford, pp 586–598
Farroni T, Menon E, Rigato S, Johnson MH (1997) The perception of facial expressions in newborns. Eur J Dev Psychol 4:2–13
Fecteau S, Pascual-Leone A, Theoret H (2008) Psychopathy and the mirror neuron system: preliminary findings from a non-psychiatric sample. Psychiatry Res 160:137–144
Franklin RG, Nelson AJ, Baker M, Beeney JE, Vescio TK, Lenz-Watson A, Adams RB Jr (2013) Neural responses to perceiving suffering in humans and animals. Soc Neurosci 8:217–227
Gallese V (2003) The roots of empathy: the shared manifold hypothesis and the neural basis of intersubjectivity. Psychopathology 36:171–180
Hamlin JK, Wynn K, Bloom P (2007) Social evaluation by preverbal infants. Nature 450:557–559
Hamlin JK, Wynn K, Bloom P (2010) Three-month-olds show a negativity bias in social evaluation. Dev Sci 13(6):923–939
Hare RD (1999) Without conscience: the disturbing world of the psychopaths among us. Guilford, New York
Harenski CL, Harenski KA, Shane MS, Kiehl KA (2010) Aberrant neural processing of moral violation in criminal psychopaths. J Abnorm Psychol 119:863–874
Harenski CL, Thornton DM, Harenski KA, Decety J, Kiehl KA (2012) Increased fronto-temporal activation during pain observation in sexual sadism. Arch Gen Psychiatry 69:283–292
Hay DF (2009) The roots and branches of human altruism. Br J Psychol 100:473–479
Hay DF, Cook KV (2007) The transformation of prosocial behaviour from infancy to childhood. In: Brownell CA, Kopp CB (eds) Socioemotional development in the toddler years: transitions and transformations. Guilford, New York, pp 34–53
Hein G, Silani G, Preuschoff K, Batson CD, Singer T (2010) Neural responses to ingroup and outgroup members’ suffering predict individual differences in costly helping. Neuron 68:149–160
Heinrichs M, Baumgartner T, Kirschbaum C, Ehlert U (2003) Social support and oxytocin interact to suppress cortisol and subjective responses to psychosocial stress. Biol Psychiatry 54:1389–1398
Hrdy SB (2008) Mothers and others: evolutionary origins of mutual understanding. Belknap, Cambridge
Insel TR, Young LJ (2001) The neurobiology of attachment. Nat Rev Neurosci 2:129–136
Jeon D, Kim S, Chetana M, Jo D, Ruley HE, Lin SY, Rabah D, Kinet JP, Shin HS (2010) Observational fear learning involves affective pain system and Ca(v)1.2 Ca2+ channels in ACC. Nat Neurosci 13:482–488
Keysers C, Wicker B, Gazzola V, Anton JL, Fogassi L, Gallese V (2004) A touching sight: SII/PV activation during the observation and experience of touch. Neuron 42:335–346
Kirsch P, Esslinger C, Chen Q, Mier D, Lis S, Siddhanti S, Gruppe H, Mattay VS, Galhofer B, Meyer-Lindenberg A (2005) Oxytocin modulates neural circuitry for social cognition and fear in humans. J Neurosci 25:11489–11493
Knafo A, Plomin R (2006) Prosocial behaviour from early to middle childhood: genetic and environmental influences on stability and change. Dev Psychol 42:771–786
Koenigs M, Baskin-Sommers A, Newman JP (2010) Investigating the neural correlates of psychopathy: a critical review. Mol Psychiatry 14:1–8
Kosfeld M, Heinrichs M, Zak PJ, Fischbacher U, Fehr E (2005) Oxytocin increases trust in humans. Nature 435:673–676
Kozak M, Marsh A, Wegner W (2006) What do I think you’re doing? Action identification and mind attribution. J Pers Soc Psychol 90:543–555
Lamm C, Decety J, Singer T (2011) Meta-analytic evidence for common and distinct neural networks associated with directly experienced pain and empathy for pain. Neuroimage 54:2492–2502
Langford DJ, Crager SE, Shehzad Z, Smith SB, Sotocinal SG, Levenstadt J, Chanda ML, Levitin DJ, Mongil JS (2006) Social modulation of pain as evidence for empathy in mice. Science 312:1967–1970
Langford DJ, Tuttleb AH, Brown K, Deschenes S, Fischer DB, Mutso A, Root KC, Sotocinal SG, Stern MA, Mogil JS, Sternberg WF (2010) Social approach to pain in laboratory mice. Soc Neurosci 5:163–170
Lockwood PL, Sebastian CL, McCrory EJ, Hyde ZH, Gu X, De Brito SA, Viding E (2013) Association of callous traits with reduced neural response to others’ pain in children with conduct disorder. Curr Biol 23:1–5
Lorberbaum JP, Newman JD, Horwitz AR, Dubno JR, Lydiard RB, Hamner MB, Bohning DE, George MS (2002) A potential role for thalamocingulate circuitry in human maternal behavior. Biol Psychiatry 51:431–445
MacDonald G, Leary MR (2005) Why does social exclusion hurt? The relationship between social and physical pain. Psychol Bull 131:202–223
Marsh AA, Finger EC, Mitchell DGV, Reid ME, Sims C, Kosson DS, Towbin KE, Leibenluft E, Pine DS, Blair RJR (2008) Reduced amygdala response to fearful expressions in children and adolescents with callous-unemotional traits and disruptive behavior disorders. Am J Psychiatry 165:712–720
Marsh AA, Finger EC, Fowler KA, Jurkowitz IT, Schechter JC, Yu HH, Pine DS, Blair RJ (2011) Reduced amygdala-orbitofrontal connectivity during moral judgments in youths with disruptive behavior disorders and psychopathic traits. Psychiatry Res 194:279–286
Marsh AA, Finger EC, Fowler KA, Adalio CJ, Jurkowitz IN, Schechter JC, Pine DS, Decety J, Blair RJR (2013) Empathic responsiveness in amygdala and anterior cingulate cortex in youths with psychopathic traits. J Child Psychol Psychiatry. 149(8):900–910
Martin G, Clark R (1982) Distress in neonates: species and peer specificity. Dev Psychol 18:3–9
Masserman J, Wechkin MS, Terris W (1964) Altruistic behavior in rhesus monkeys. Am J Psychiatry 121:584–585
Meerwijk EL, Ford JM, Weiss SJ (2013) Brain regions associated with psychological pain: implications for a neural network and its relationship to physical pain. Brain Imaging Behav 7:1–14
Morrison I, Downing PE (2007) Organization of felt and seen pain responses in anterior cingulate cortex. Neuroimage 37:642–652
Murray EA (2007) The amygdala, reward and emotion. Trends Cogn Sci 11:489–497
Nadel J (2002) Imitation and imitation recognition: functional use in preverbal infants and nonverbal children with autism. In: Meltzoff AN, Prinz W (eds) The imitative mind: development, evolution and brain bases. Cambridge University Press, Cambridge, pp 42–62
Norman GJ, Karelina K, Morris JS, Zhang N, Cochran M, DeVries AC (2010) Social interaction prevents the development of depressive-like behavior post nerve injury in mice: a potential role for oxytocin. Psychosom Med 72:519–526
Norman GJ, Hawkley LC, Cole SW, Berntson GG, Cacioppo JT (2012) Social neuroscience: the social brain, oxytocin, and health. Soc Neurosci 7(1):18–29
O’Connor MF, Wellisch DK, Stanton AL, Eisenberger NI, Irwin MR, Lieberman MD (2008) Craving love? Enduring grief activates brain’s reward center. Neuroimage 42(2):969–972
Panksepp J (1998) Affective neuroscience: the foundations of human and animal emotions. Oxford University Press, London
Park J, Willmott M, Vetuz G, Toye C, Kirley A, Hawi Z, Brookes KJ (2010) Evidence that genetic variation in the oxytocin receptor (OXTR) gene influences social cognition in ADHD. Prog Neuro-psychopharmacol Biol Psychiatry 34:697–702
Parr LA (2001) Cognitive and physiological markers of emotional awareness in chimpanzees (Pan troglodytes). Anim Cogn 4:223–229
Porges SW, Carter CS (2012) Mechanisms, mediators, and adaptive consequences of caregiving. In: Brown SL, Brown M, Perner LA (eds) Moving beyond self-interest. Oxford University Press, New York, pp 53–71
Rheingold HL (1982) Little children’s participation in the work of adults, a nascent prosocial behavior. Child Dev 53:114–125
Rice GE, Gainer P (1962) Altruism in the albino rat. J Comp Physiol Psychol 55:123–125
Rodrigues SM, Saslow LR, Garcia N, John OP, Keltner D (2009) Oxytocin receptor genetic variation relates to empathy and stress reactivity in humans. Proc Natl Acad Sci U S A 106:21437–21441
Romero T, Castellanos MA, de Waal FBM (2010) Consolation as possible expression of sympathetic concern among chimpanzees. Proc Natl Acad Sci U S A 107:12110–12115
Roth-Hanania R, Davidov M, Zahn-Waxler C (2011) Empathy development from 8 to 16 months: early signs of concerned for others. Infant Behav Dev 34:447–458
Sambo CF, Howard M, Kopelman M, Williams S, Fotopoulou A (2010) Knowing you care: effects of perceived empathy and attachment style on pain perception. Pain 151:687–693
Schaefer M, Xu B, Flor H, Cohen LG (2009) Effects of different viewing perspectives on somatosensory activations during observation of touch. Hum Brain Mapp 30:2722–2730
Schmidt M, Sommerville JA (2011) Fairness expectations and altruistic sharing in 15-month-old human infants. PLoS One 6:e23223
Sebastian CL, McCrory MJP, Cecil CAM, Lockwood PL, DeBrito SA, Fontaine NMG, Viding E (2012) Neural responses to affective and cognitive theory of mind in children with conduct problems and varying levels of callous-unemotional traits. Arch Gen Psychiatry 69:814–822
Shamay-Tsoory S (2009) Empathic processing: its cognitive and affective dimensions and neuroanatomical basis. In: Decety J, Ickes W (eds) The social neuroscience of empathy. MIT Press, Cambridge, pp 215–232
Singer T, Seymour B, O’Doherty JP, Stephan KE, Dolan RD, Frith CD (2006) Empathic neural responses are modulated by the perceived fairness of others. Nature 439:466–469
Svetlova M, Nichols SR, Brownell CA (2010) Toddlers’ prosocial behavior: from instrumental to empathic to altruistic helping. Child Dev 81:1814–1827
Tucker DM, Luu P, Derryberry D (2005) Love hurts: the evolution of empathic concern through the encephalization of nociceptive capacity. Dev Psychopathol 17:699–713
Uchino BN, Cacioppo JT, Kiecolt-Glaser JK (1996) The relationship between social support and physiological processes: a review with emphasis on underlying mechanisms and implications for health. Psychol Bull 119:488–531
Vaish A, Carpenter M, Tomasello M (2009) Sympathy through affective perspective-taking and its relation to prosocial behavior in toddlers. Dev Psychol 45(2):534–543
Wager T, Barrett LF, Bliss-Moreau E, Lindquist KA, Duncan S, Kober H, Joseph J, Davidson M, Mize J (2008) The neuroimaging of emotion. In: Handbook of emotions, 3rd edn. Guilford Press, New York
Warneken F, Tomasello M (2009) The roots of human altruism. Br J Psychol 100:455–471
Warnick JE, McCurdy CR, Sufka KJ (2005) Opioid receptor function in social attachment in young domestic fowl. Behav Brain Res 160:277–285
Wechkin S, Masserman JH, Terris W (1964) Shock to a conspecific as an aversive stimulus. Psychonom Sci 1:47–48
Xu X, Zuo X, Wang L, Han S (2009) Do you feel my pain? Racial group membership modulates empathic neural responses. J Neurosci 29:8525–8529
Yabar Y, Johnston L, Miles L, Peace V (2006) Implicit behavioral mimicry: investigating the impact of group membership. J Non-verbal Behav 30:97–113
Zahn-Waxler C, Radke-Yarrow M, Wagner E, Chapman M (1992) Development of concern for others. Dev Psychol 28:126–136
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The writing of this chapter was supported by grants from the John Templeton Foundation (Wisdom Research and Science of Philanthropy Initiative) and the National Science Foundation (BCS-0718480).
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Decety, J. (2014). The Neuroevolution of Empathy and Caring for Others: Why It Matters for Morality. In: Decety, J., Christen, Y. (eds) New Frontiers in Social Neuroscience. Research and Perspectives in Neurosciences, vol 21. Springer, Cham. https://doi.org/10.1007/978-3-319-02904-7_8
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