The Origins of Social Knowledge in Altricial Species

Literature Cited

1. Abney DH, Smith LB, Yu C 2017. It's time: quantifying the relevant time scales for joint attention. Proceedings of the 39th Annual Conference of the Cognitive Science Society G Gunzelmann, A Howes, T Tenbrink, E Davelaar 1489–94 Austin, TX: Cogn. Sci. Soc.
   [Google Scholar]
2. Adolph KE, Tamis-LeMonda CS. 2014. The costs and benefits of development: the transition from crawling to walking. Child Dev. Perspect. 8:4187–92
   [Google Scholar]
3. Albert RR, Schwade JA, Goldstein MH 2017. The social functions of babbling: acoustic and contextual characteristics that facilitate maternal responsiveness. Dev. Sci. 18:2e12641
   [Google Scholar]
4. Alberts JR, Brunjes PC. 1978. Ontogeny of thermal and olfactory determinants of huddling in the rat. J. Comp. Physiol. Psychol. 92:5897–906
   [Google Scholar]
5. Alberts JR, Cramer CP. 1988. Ecology and experience: sources of means and meaning of developmental change. Developmental Psychobiology and Behavioral Ecology EM Blass 1–39 New York: Plenum
   [Google Scholar]
6. Alberts JR, May B. 1984. Nonnutritive, thermotactile induction of filial huddling in rat pups. Dev. Psychobiol. 17:2161–81
   [Google Scholar]
7. Baldwin DA, Baird JA, Saylor MM, Clark MA 2001. Infants parse dynamic action. Child Dev 72:3708–17
   [Google Scholar]
8. Batki A, Baron-Cohen S, Wheelwright S, Connellan J, Ahluwalia J 2000. Is there an innate gaze module? Evidence from human neonates. Infant Behav. Dev. 23:223–29
   [Google Scholar]
9. Baumrind D. 1971. Current patterns of parental authority. Dev. Psychol. 4:11–103
   [Google Scholar]
10. Bayer HM, Glimcher PW. 2005. Midbrain dopamine neurons encode a quantitative reward prediction error signal. Neuron 47:129–41
    [Google Scholar]
11. Ben Mocha Y, Mundry R, Pika S 2019. Joint attention skills in wild Arabian babblers (Turdoides squamiceps): a consequence of cooperative breeding. ? Proc. R. Soc. B 286:20190147
    [Google Scholar]
12. Benitez VL, Saffran JR. 2018. Predictable events enhance word learning in toddlers. Curr. Biol. 17:102787–93.e4
    [Google Scholar]
13. Bhatt RS, Bertin E, Hayden A, Reed A 2005. Face processing in infancy: developmental changes in the use of different kinds of relational information. Child Dev 76:169–81
    [Google Scholar]
14. Blake R. 1993. Cats perceive biological motion. Psychol. Sci. 4:154–57
    [Google Scholar]
15. Bogin B, Varea C. 2017. Evolution of human life history. Evolution of Nervous Systems, Vol. 4 J Kaas 37–50 Oxford, UK: Elsevier. , 2nd ed..
    [Google Scholar]
16. Bornstein MH, Manian N. 2013. Maternal responsiveness and sensitivity reconsidered: Some is more. Dev. Psychopathol. 25:4957–71
    [Google Scholar]
17. Brandone AC, Stout W, Moty K 2020. Triadic interactions support infants’ emerging understanding of intentional actions. Dev. Sci. 23:21–14
    [Google Scholar]
18. Bretherton I. 2013. Revisiting Mary Ainsworth's conceptualization and assessments of maternal sensitivity-insensitivity. Attach. Hum. Dev. 15:460–84
    [Google Scholar]
19. Calkins SD. 2015. Seeing infant development through a biopsychosocial lens. Handbook of Infant Biopsychosocial Development SD Calkins 3–10 New York: Guilford
    [Google Scholar]
20. Carouso-Peck S, Goldstein MH. 2019. Female social feedback reveals non-imitative mechanisms of vocal learning in zebra finches. Curr. Biol. 29:4631–36
    [Google Scholar]
21. Chen Y, Matheson LE, Sakata JT 2016. Mechanisms underlying the social enhancement of vocal learning in songbirds. PNAS 113:246641–46
    [Google Scholar]
22. Colombelli-Negrel D, Hauber ME, Robertson J, Sulloway FJ, Hoi H et al. 2012. Embryonic learning of vocal passwords in superb fairy-wrens reveals intruder cuckoo nestlings. Curr. Biol. 22:2155–60
    [Google Scholar]
23. Cooper RP, Aslin RN. 1990. Preference for infant‐directed speech in the first month after birth. Child Dev 61:51584–95
    [Google Scholar]
24. Crivello C, Phillips S, Poulin-Dubois D 2018. Selective social learning in infancy: looking for mechanisms. Dev. Sci. 21:e12592
    [Google Scholar]
25. Deák GO, Krasno AM, Triesch J, Lewis J, Sepeta L 2014. Watch the hands: Infants can learn to follow gaze by seeing adults manipulate objects. Dev. Sci. 17:2270–81
    [Google Scholar]
26. DeCasper AJ, Fifer WP. 1980. Of human bonding: Newborns prefer their mothers’ voices. Science 208:44481174–76
    [Google Scholar]
27. DeCasper AJ, Spence MJ. 1986. Prenatal maternal speech influences newborns’ perception of speech sounds. Infant Behav. Dev. 9:133–50
    [Google Scholar]
28. Dunsworth HM, Warrener AG, Deacon T, Ellison PT, Pontzer H 2012. Metabolic hypothesis for human altriciality. PNAS 109:3815212–16
    [Google Scholar]
29. Easterbrooks MA, Kisilevsky BS, Hains SMJ, Muir DW 1999. Faceness or complexity: evidence from newborn visual tracking of facelike stimuli. Infant Behav. Dev. 22:17–35
    [Google Scholar]
30. Elmlinger SL, Schwade JA, Goldstein MH 2019. The ecology of prelinguistic vocal learning: Parents simplify the structure of their speech in response to babbling. J. Child Lang. 46:5998–1011
    [Google Scholar]
31. Fantz RL. 1961. The origin of form perception. Sci. Am. 204:566–72
    [Google Scholar]
32. Farroni T, Csibra G, Simion F, Johnson MH 2002. Eye contact detection in humans from birth. PNAS 99:149602–5
    [Google Scholar]
33. Fernald A, Taeschner T, Dunn J, Papousek M, de Boysson-Bardies B, Fukui I 1989. A cross-language study of prosodic modifications in mothers’ and fathers’ speech to preverbal infants. J. Child Lang. 16:3477–501
    [Google Scholar]
34. Fernandez AA, Knörnschild M. 2020. Pup directed vocalizations of adult females and males in a vocal learning bat. Front. Ecol. Evol. 8:00265
    [Google Scholar]
35. French RM, Mermillod M, Quinn PC, Chauvin A, Mareschal D 2002. The importance of starting blurry: simulating improved basic-level category learning in infants due to weak visual acuity. Proceedings of the 24th Annual Conference of the Cognitive Science Society WD Gray, CD Schunn 1–7 Austin, TX: Cogn. Sci. Soc.
    [Google Scholar]
36. Ghazanfar AA, Liao DA. 2017. Constraints and flexibility during vocal development: insights from marmoset monkeys. Curr. Opin. Behav. Sci. 21:27–32
    [Google Scholar]
37. Goldberg AE. 2008. Universal Grammar? Or prerequisites for natural language. ? Behav. Brain Sci. 31:5522–23
    [Google Scholar]
38. Goldstein MH, King AP, West MJ 2003. Social interaction shapes babbling: testing parallels between birdsong and speech. PNAS 100:138030–35
    [Google Scholar]
39. Goldstein MH, Schwade JA. 2008. Social feedback to infants’ babbling facilitates rapid phonological learning. Psychol. Sci. 19:5515–23
    [Google Scholar]
40. Goldstein MH, Schwade JA, Bornstein MH 2009. The value of vocalizing: Five-month-old infants associate their own noncry vocalizations with responses from caregivers. Child Dev 80:3636–44
    [Google Scholar]
41. Gottlieb G. 1971. Development of Species Recognition in Birds: An Inquiry into the Prenatal Determinants of Perception Chicago: Univ. Chicago Press
42. Gottlieb G, Tomlinson WT, Radell PL 1989. Developmental intersensory interference: Premature visual experience suppresses auditory learning in ducklings. Infant Behav. Dev. 12:11–12
    [Google Scholar]
43. Graf Estes K, Evans JL, Alibali MW, Saffran JR 2007. Can infants map meaning to newly segmented words? Statistical segmentation and word learning. Psychol. Sci. 18:3254–60
    [Google Scholar]
44. Greenough WT, Black JE, Wallace CS 1987. Experience and brain development. Child Dev 58:3539–59
    [Google Scholar]
45. Gultekin YB, Hage SR. 2017. Limiting parental feedback disrupts vocal development in marmoset monkeys. Nat. Commun. 8:14046
    [Google Scholar]
46. Hailman JP. 1969. How an instinct is learned. Sci. Am. 221:698–108
    [Google Scholar]
47. Hamlin JK, Wynn K, Bloom P 2007. Social evaluation by preverbal infants. Nature 450:557–59
    [Google Scholar]
48. Humphrey T. 1970. The development of human fetal activity and its relation to postnatal behavior. Adv. Child Dev. Behav. 5:1–57
    [Google Scholar]
49. James W. 1890. The Principles of Psychology, Vol. 1 New York: Cosimo
50. Johnson MH, Dziurawiec S, Ellis HD, Morton J 1991. Newborns’ preferential tracking of face‐like stimuli and its subsequent decline. Cognition 40:1–19
    [Google Scholar]
51. Johnston TD, Gottlieb G. 1981. Visual preferences of imprinted ducklings are altered by the maternal call. J. Comp. Physiol. Psychol. 95:5663–75
    [Google Scholar]
52. Jones DN, Dekker RWRJ, Roselaar CS 1995. The Megapodes Oxford, UK: Oxford Univ. Press
53. Jones SS. 1996. Imitation or exploration? Young infants’ matching of adults’ oral gestures. Child Dev 67:51952–69
    [Google Scholar]
54. Jones SS. 2006. Exploration or imitation? The effect of music on 4-week-old infants’ tongue protrusions. Infant Behav. Dev. 29:126–30
    [Google Scholar]
55. Kaplan PS, Goldstein MH, Huckeby ER, Owren MJ 1995. Dishabituation of visual attention by infant- versus adult-directed speech: effects of frequency modulation and spectral composition. Infant Behav. Dev. 18:209–23
    [Google Scholar]
56. Kellman PJ, Arterberry ME. 2006. Infant visual perception. Handbook of Child Psychology, Vol. 2: Cognition, Perception, and Language D Kuhn, RS Siegler 109–60 Hoboken, NJ: Wiley. , 6th ed..
    [Google Scholar]
57. Kelly DJ, Liu S, Lee K, Quinn PC, Pascalis O et al. 2009. Development of the other-race effect during infancy: evidence toward universality. ? J. Exp. Child Psychol. 104:1105–14
    [Google Scholar]
58. Kelly DJ, Quinn PC, Slater AM, Lee K, Ge L, Pascalis O 2007. The other-race effect develops during infancy: evidence of perceptual narrowing. Psychol. Sci. 18:121084–89
    [Google Scholar]
59. Kenny PA, Turkewitz G. 1986. Effects of unusually early visual stimulation on the development of homing behavior in the rat pup. Dev. Psychobiol. 19:57–66
    [Google Scholar]
60. Kidd C, Piantadosi ST, Aslin RN 2012. The Goldilocks effect: Human infants allocate attention to visual sequences that are neither too simple nor too complex. PLOS ONE 7:5e36399
    [Google Scholar]
61. Kidd C, Piantadosi ST, Aslin RN 2014. The Goldilocks effect in infant auditory attention. Child Dev 85:51795–804
    [Google Scholar]
62. King AP, West MJ. 1983. Epigenesis of cowbird song—a joint endeavour of males and females. Nature 305:5936704–6
    [Google Scholar]
63. Kinney DK, Kagan J. 1976. Infant attention to auditory discrepancy. Child Dev 47:1155–64
    [Google Scholar]
64. Kisilevsky BS, Hains SM, Brown CA, Lee CT, Cowperthwaite B et al. 2009. Fetal sensitivity to properties of maternal speech and language. Infant Behav. Dev. 32:159–71
    [Google Scholar]
65. Koenig MA, Clément F, Harris PL 2004. Trust in testimony: children's use of true and false statements. Psychol. Sci. 15:10694–98
    [Google Scholar]
66. Krasotkina A, Götz A, Höhle B, Schwarzer G 2018. Perceptual narrowing in speech and face recognition: evidence for intra-individual cross-domain relations. Front. Psychol. 9:1711
    [Google Scholar]
67. Kretch KS, Franchak JM, Adolph KE 2013. Crawling and walking infants see the world differently. Child Dev 85:41503–18
    [Google Scholar]
68. Kuhl PK, Meltzoff AN. 1982. The bimodal perception of speech in infancy. Science 218:45771138–41
    [Google Scholar]
69. Kuhl PK, Stevens E, Hayashi A, Deguchi T, Kiritani S, Iverson P 2006. Infants show a facilitation effect for native language phonetic perception between 6 and 12 months. Dev. Sci. 9:2F13–21
    [Google Scholar]
70. Lehrman DS. 1970. Semantic and conceptual issues in the nature–nurture problem. Development and Evolution of Behavior DS Lehrman 17–52 San Francisco: Freeman
    [Google Scholar]
71. Leleu A, Rekow D, Poncet F, Schaal B, Durand K et al. 2019. Maternal odor shapes rapid face categorization in the infant brain. Dev. Sci. 23:267–11
    [Google Scholar]
72. Lewkowicz DJ, Ghazanfar AA. 2009. The emergence of multisensory systems through perceptual narrowing. Trends Cogn. Sci. 13:11470–78
    [Google Scholar]
73. Liberman Z, Kinzler KD, Woodward AL 2014. Friends or foes: Infants use shared evaluations to infer others’ social relationships. J. Exp. Psychol. Gen. 143:3966–71
    [Google Scholar]
74. Lickliter RE, Gottlieb G. 1985. Social interaction with siblings is necessary for visual imprinting of species-specific maternal preferences in ducklings (Anas platyrhynchos). J. Comp. Psychol. 99:4371–79
    [Google Scholar]
75. Liu HM, Kuhl PK, Tsao FM 2003. An association between mothers’ speech clarity and infants’ speech discrimination skills. Dev. Sci. 6:3F1–10
    [Google Scholar]
76. MacWhinney B. 2015. Language development. Handbook of Child Psychology and Developmental Science, Vol. 2: Cognitive Processes LS Liben, U Müller, RM Lerner 296–338 New York: Wiley. , 7th ed..
    [Google Scholar]
77. Mariette MM, Buchanan KL. 2016. Prenatal acoustic communication programs offspring for high posthatching temperatures in a songbird. Science 353:6301812–14
    [Google Scholar]
78. Meltzoff AN, Moore MK. 1977. Imitation of facial and manual gestures by human neonates. Science 198:431275–78
    [Google Scholar]
79. Moon C. 2017. Prenatal experience with the maternal voice. Early Vocal Contact and Preterm Infant Brain M Filippa, P Kuhn, B Westrup 25–37 Cham, Switz: Springer
    [Google Scholar]
80. Moon C, Lagercrantz H, Kuhl PK 2013. Language experienced in utero affects vowel perception after birth: a two‐country study. Acta Paediatr 102:2156–60
    [Google Scholar]
81. Morton J, Johnson MH. 1991. CONSPEC and CONLERN: a two‐process theory of infant face recognition. Psychol. Rev. 98:164–81
    [Google Scholar]
82. Moulin-Frier C, Nguyen SM, Oudeyer P 2014. Self-organization of early vocal development in infants and machines: the role of intrinsic motivation. Front. Psychol. 4:1006
    [Google Scholar]
83. Oudeyer P, Kaplan F, Hafner VV 2007. Intrinsic motivation systems for autonomous mental development. IEEE Trans. Evol. Comput. 11:2265–86
    [Google Scholar]
84. Papeo L, Goupil N, Soto-Faraco S 2019. Visual search for people among people. Psychol. Sci. 30:101483–96
    [Google Scholar]
85. Pascalis O, de Haan M, Nelson CA 2002. Is face processing species-specific during the first year of life. ? Science 296:1321–23
    [Google Scholar]
86. Pascalis O, Scott LS, Kelly DJ, Shannon RW, Nicholson E et al. 2005. Plasticity of face processing in infancy. PNAS 102:145297–300
    [Google Scholar]
87. Pika S, Bugnyar T. 2011. The use of referential gestures in ravens (Corvus corax) in the wild. Nat. Commun. 2:560
    [Google Scholar]
88. Pipp-Siegel S, Biringen Z. 1998. Assessing the quality of relationships between parents and children: the emotional availability scales. Volta Rev 100:5237–49
    [Google Scholar]
89. Ronca AE, Abel RA, Alberts JR 1996. Perinatal stimulation and adaptation of the neonate. Acta Paediatr 85:8–15
    [Google Scholar]
90. Ronca AE, Fritzsch B, Bruce LL, Alberts JR 2008. Orbital spaceflight during pregnancy shapes function of mammalian vestibular system. Behav. Neurosci. 122:1224–32
    [Google Scholar]
91. Ruffman T, Taumeopeau M, Perkins C 2011. Statistical learning as a basis for social understanding in children. Br. J. Dev. Psychol. 30:187–104
    [Google Scholar]
92. Saffran JR, Aslin RN, Newport EL 1996. Statistical learning by 8-month-old infants. Science 274:1926–28
    [Google Scholar]
93. Saffran JR, Werker JF, Werner LA 2006. The infant's auditory world: hearing, speech, and the beginnings of language. Handbook of Child Psychology, Vol. 2: Cognition, Perception and Language R Siegler, D Kuhn 58–108 New York: Wiley. , 6th ed..
    [Google Scholar]
94. Santolin C, Saffran JR. 2018. Constraints on statistical learning across species. Trends Cogn. Sci. 22:152–63
    [Google Scholar]
95. Schel AM, Townsend SW, Machanda Z, Zuberbühler K, Slocombe KE 2013. Chimpanzee alarm call production meets key criteria for intentionality. PLOS ONE 8:10e76674
    [Google Scholar]
96. Seyfarth RM, Cheney DL. 1986. Vocal development in vervet monkeys. Anim. Behav. 34:1640–58
    [Google Scholar]
97. Simion F, Cassia VM, Turati C, Valenza E 2001. The origins of face perception: specific versus non-specific mechanisms. Infant Child Dev 10:59–65
    [Google Scholar]
98. Simion F, Regolin L, Bulf H 2008. A predisposition for biological motion in the newborn baby. PNAS 105:2809–13
    [Google Scholar]
99. Skinner D. 1981. Selection by consequences. Science 213:4507501–4
    [Google Scholar]
100. Smith NA, Trainor LJ. 2008. Infant-directed speech is modulated by infant feedback. Infancy 13:4410–20
     [Google Scholar]
101. Spelke ES, Cortelyou A. 1981. Perceptual aspects of social knowing: looking and listening in infancy. Infant Social Cognition ME Lamb, LR Sherrod 61–83 Hillsdale, NJ: Erlbaum
     [Google Scholar]
102. Spelke ES, Kinzler KD. 2007. Core knowledge. Dev. Sci. 10:89–96
     [Google Scholar]
103. Suanda SH, Barnhart M, Smith LB, Yu C 2019. The signal in the noise: the visual ecology of parents’ object naming. Infancy 24:3455–76
     [Google Scholar]
104. Takahashi DY, Fenley AR, Teramoto Y, Narayanan DZ, Borjon JI et al. 2015. The developmental dynamics of marmoset monkey vocal production. Science 349:6249730–34
     [Google Scholar]
105. Takahashi DY, Narayanan DZ, Ghazanfar AA 2013. Coupled oscillator dynamics of vocal turn-taking in monkeys. Curr. Biol. 23:212162–68
     [Google Scholar]
106. Tamis-LeMonda CS, Kuchirko Y, Luo R, Escobar K, Bornstein MH 2017. Power in methods: language to infants in structured and naturalistic contexts. Dev. Sci. 20:6e12456
     [Google Scholar]
107. Thiessen ED, Hill EA, Saffran JR 2005. Infant-directed speech facilitates word segmentation. Infancy 7:153–71
     [Google Scholar]
108. Thomsen L, Frankenhuis WE, Ingold-Smith M, Carey S 2011. Big and mighty: Preverbal infants mentally represent social dominance. Science 331:6016477–80
     [Google Scholar]
109. Thornton A, McAuliffe K. 2006. Teaching in wild meerkats. Science 313:5784227–29
     [Google Scholar]
110. Tinbergen TN, Perdeck A. 1951. On the stimulus situation releasing the begging response in the newly hatched herring gull chick (Larus argentatus argentatus Pont.). Behaviour 3:11–39
     [Google Scholar]
111. Townsend SW, Koski SE, Byrne RW, Slocombe KE, Bickel B et al. 2016. Exorcising Grice's ghost: an empirical approach to studying intentional communication in animals. Biol. Rev. 92:31427–33
     [Google Scholar]
112. Tummeltshammer KS, Kirkham NZ. 2013. Learning to look: Probabilistic variation and noise guide infants’ eye movements. Dev. Sci. 16:5760–71
     [Google Scholar]
113. Tummeltshammer KS, Wu R, Sobel DM, Kirkham NZ 2014. Infants track the reliability of potential informants. Psychol. Sci. 25:91730–38
     [Google Scholar]
114. Uomini N, Fairlie J, Gray RD, Griesser M 2020. Extended parenting and the evolution of cognition. Philos. Trans. R. Soc. B 375:20190495
     [Google Scholar]
115. Vallortigara G, Regolin L, Marconato F 2005. Visually inexperienced chicks exhibit spontaneous preference for biological motion patterns. PLOS ONE 3:7e208
     [Google Scholar]
116. Vestner T, Gray KLH, Cook R 2020. Why are social interactions found quickly in visual search tasks. ? Cognition 200:104270
     [Google Scholar]
117. Vouloumanos A, Curtin S. 2014. Foundational tuning: how infants’ attention to speech predicts language development. Cogn. Sci. 38:81675–86
     [Google Scholar]
118. Vouloumanos A, Hauser M, Werker J, Martin A 2010. The tuning of human neonates’ preference for speech. Child Dev 81:2517–27
     [Google Scholar]
119. Vouloumanos A, Werker JF. 2007. Listening to language at birth: evidence for a bias for speech in neonates. Dev. Sci. 10:2159–64
     [Google Scholar]
120. Walton GE, Bower NJA, Bower TGR 1992. Recognition of familiar faces by newborns. Infant Behav. Dev. 15:2265–69
     [Google Scholar]
121. West MJ, King AP. 1988. Female visual displays affect the development of male song in the cowbird. Nature 334:6179244–46
     [Google Scholar]
122. West MJ, King AP. 2008. Deconstructing innate illusions: reflections on nature-nurture-niche from an unlikely source. Philos. Psychol. 21:3383–95
     [Google Scholar]
123. Whiten A, Byrne RW. 1988. Tactical deception in primates. Behav. Brain Sci. 11:233–73
     [Google Scholar]
124. Woodward AL. 1998. Infants selectively encode the goal object of an actor's reach. Cognition 69:1–34
     [Google Scholar]
125. Xiao WS, Quinn PC, Pascalis O, Lee K 2014. Own- and other-race face scanning in infants: implications for perceptual narrowing. Dev. Psychobiol. 56:2262–73
     [Google Scholar]