Список литературы
Глава 1. Какие мы
1 Hippocrates (400 В. С.) Hippocratic writings (Francis Adams, trans.). In: Adler M.J. (ed.) The great books of the western world (1952 ed., V 10, E 159). Chicago: Encyclopaedia Britannica, Inc.
2 Doyle A. C. (1892) Silver blaze. In: The complete Sherlock Holmes (1930 ed., V 1, E 335). Garden City, NY: Doubleday & Company, Inc.
3 Lashley K. S. (1929) Brain mechanisms and intelligence: a quantitative study of injuries to the brain. Chicago: University of Chicago Press.
4 Watson J. B. (1930) Behaviorism (Rev. ed., E 82). Chicago: University of Chicago Press.
5 Weiss P. A. (1934) In vitro experiments on the factors determining the course of the outgrowing nerve fiber. Journal of Experimental Zoology. 68 (3): 393-448.
6 Sperry R. W. (1963) Chemoaffinity in the orderly growth of nerve fiber patterns and connections. Proceedings of the National Academy of Sciences of the United States of America. 50 (4): 703-710.
7 Hebb D. O. (1949) The organization of behavior: a neuropsychological theory (P 62). NY: Wiley.
8 Hebb D. O. (1947) The effects of early experience on problem solving at maturity. American Psychologist. 2: 306-307.
9 Ford F. R., Woodall B. (1938) Phenomena due to misdirection of regenerating fibers of cranial, spinal and autonomic nerves. Archives of Surgery. 36 (3): 480-496.
10 Sperry R. (1939) The functional results of muscle transposition in the hind limb of the rat. The Journal of Comparative Neurology. 73 (3): 379-404.
11 Sperry R. (1943) Functional results of crossing sensory nerves in the rat. The Journal of Comparative Neurology. 78 (1): 59-90.
12 Sperry R. W. (1963) Chemoaffinity in the orderly growth of nerve fiber patterns and connections. Proceedings of the National Academy of Sciences of the United States of America. 50 (4): 703-710.
13 Pomerat C. M. (1963) Activities associated with neuronal regeneration. The Anatomical Record. 145 (2): 371.
14 Krubitzer L. (2009) In search of a unifying theory of complex brain evolution. Annals of the New York Academy of Science. 1156: 44-67.
15 Marlhr R, Tamura M. (1964) Culturally transmitted patterns of vocal behavior in sparrows. Science. 146 (3650): 1483-1486.
16 Jernk N. (1967) Antibodies and learning: selection versus instruction. The neurosciences: a study program (P. 200-205). NY: Rockefeller University Press.
17 Boag P. T., G rant P. R. (1981) Intense natural selection in a population of Darwin s finches (Geospizinae) in the Galapagos. Science. 214 (4516): 82-85.
18 Sin W. C. et al. (2002) Dendrite growth increased by visual activity requires NMDA receptor and Rho GTPases. Nature. 419 (6906): 475-480.
19 Rioult-Pedotti М. S. et al. (2007) Plasticity of the synaptic modification range. Journal of Neurophysiology. 98 (6): 3688-3695.
20 Xu T. et al. (2009) Rapid formation and selective stabilization of synapses for enduring motor memories. Nature. 462 (7275): 915— 919.
21 Baillargeon R. E. (1987) Object permanence in 31/2- and 41/2-month-old infants. Developmental Psychology. 23 (5): 655-664.
22 См.: Spelke E. S. (1991) Physical knowledge in infancy: reflections on Piaget's theory. In: Carey S., Gelman R. (eds.) The epigenesis of mind: essays on biology and cognition (P. 133-169). Hillsdale, NJ: Lawrence Erlbaum Associates; а также Spelke E. S. (1994) Initial knowledge: six suggestions. Cognition. 50: 443-447.
23 Purves D. et al. (2004) Perceiving the intensity of light. Psychological Review, in (1): 142-158.
24 Purves D. An empirical explanation: simultaneous brightness contrast. См.: http://purveslab.net/simultaneous-brightness-contrast/
25 Lovejoy C. O. et al. (2009) Combining prehension and propulsion: the foot ofArdipithecus ramidus. Science. 326 (5949): 72, 72e1—72e8.
26 Festinger L. (1983) The human legacy (P 4). NY: Columbia University Press.
27 Lovejoy C. O. (2009) Reexamining human origins in light of Ardipithecus ramidus. Science. 326 (5949): 74, 74e1-74e8.
28 Darwin C. (1871) The descent of man, and selection in relation to sex. London: John Murray (Facsimile ed., 1981, Princeton, NJ: Princeton University Press).
29 Huxley T. H. (1863) Evidence as to man's place in nature. London: Williams and Morgate (Reissued, 1959, Ann Arbor: University of Michigan Press).
30 Holloway R. L. (1966) Cranial capacity and neuron number: a critique and proposal. American Journal of Physical Anthropology. 25 (3): 305-314.
31 Holloway R. L. (2008) The human brain evolving: a personal retrospective. Annual Review of Anthropology. 37: 1-19.
32 См.: Preuss T. M. et al. (1999) Distinctive compartmental organization of human primary visual cortex. Proceedings of the National Academy of Sciences of the United States of America. 96 (20): 11601-11606; а также Preuss T. M., Coleman G. Q. (2002) Human-specific organization of primary visual cortex: alternating compartments of dense Cat-301 and calbindin immunoreactivity in layer 4A. Cerebral Cortex. 12 (7): 671-691.
33 De Winter W., Oxnard С. E. (2001) Evolutionary radiations and convergences in the structural organization of mammalian brains. Nature. 409: 710-714.
34 Oxnard C.E. (2004) Brain evolution: mammals, primates, chimpanzees, and humans. International Journal of Primatology. 25 (5): 1127-1158.
35 Rakic P. (2005) Vive la difference! Neuron. 47 (3): 323-325.
36 Premack D. (2007) Human and animal cognition: continuity and discontinuity. Proceedings of the National Academy of Sciences of the United States of America. 104 (35): 13861-13867.
37 Azevedo F. A. C. et al. (2009) Equal numbers of neuronal and nonneuronal cells make the human brain an isometrically scaled-up primate brain. Journal of Comparative Neurology. 513 (5): 532-541.
38 Shariff G. A. (1953) Cell counts in the primate cerebral cortex. Journal of Comparative Neurology. 98 (3): 381-400.
39 Deacon T. W. (1990) Rethinking mammalian brain evolution. American Zoology. 30 (3): 629-705.
40 Ring о J. E. (1991) Neuronal interconnection as a function of brain size. Brain, Behavior and Evolution. 38 (1): 1-6.
41 Petersen S. E. et al. (1988) Positron emission tomographic studies of the cortical anatomy of single-word processing. Nature. 331 (6157): 585-589.
42 Preuss T. M. (2001) The discovery of cerebral diversity: an unwelcome scientific revolution. In: Falk D., Gibson K.R. (eds.) Evolutionary anatomy of the primate cerebral cortex (P 154). Cambridge: Cambridge University Press.
43 Hutsler J. J. et al. (2005) Comparative analysis of cortical layering and supragranular layer enlargement in rodent carnivore and primate species. Brain Research. 1052: 71-81.
44 См.: Caviness V. S. et al. (1995) Numbers, time and neocortical neurogenesis: a general developmental and evolutionary model. Trends in Neuroscience. 18 (9): 379-383; Fuster J.M. (2003) Neurobiology of cortical networks. In: Cortex and mind (E 17-53). NY: Oxford University Press; а также Jones E. G. (1981) Anatomy of cerebral cortex: columnar input-output organization. In: Schmitt F. O. et al. (eds.) The organization of the cerebral cortex (P 199-235). Cambridge, MA: The MIT Press.
45 Hutsler J.J., Galuske R. A.W. (2003) Hemispheric asymmetries in cerebral cortical networks. Trends in Neuroscience. 26: 429-435.
46 Elston G.N., Rosa M.G. P. (2000) Pyramidal cells, patches and cortical columns: a comparative study of infragranular neurons in ТЕО, ТЕ, and the superior temporal poly sensory area of the macaque monkey. The Journal of Neuroscience. 20 (24): RC117.
47 Elston G. N. (2003) Cortex, cognition and the cell: new insights into the pyramidal neuron and prefrontal function. Cerebral Cortex. 13 (11): 1124-1138.
48 Rilling J.K., Insel T. R. (1999) Differential expansion of neural projection systems in primate brain evolution. Neuroreport. 10 (7): 1453-1459.
49 См.: Buxhoeveden D., Casanova M. (2000) Comparative latéralisation patterns in the language area of human, chimpanzee, and rhesus monkey brains. Laterality. 5 (4): 315-330; а также G i lis sen E. (2001) Structural symmetries and asymmetries in human and chimpanzee brains. In: Falk D., Gibson K. R. (eds.) Evolutionary anatomy of the primate cerebral cortex (E 187-215).. Cambridge: Cambridge University Press.
50 Vermeire B., Hamilton C. R. (1998) Inversion effect for faces in split-brain monkeys. Neuropsychologia. 36 (10): 1003-1014.
51 Halpern M. E. et al. (2005) Lateralization of the vertebrate brain: taking the side of model systems. Journal of Neuroscience. 25 (35): 10351-10357.
52 См. обзор: Hutsler J.J., Galuske R. A.W. (2003) Hemispheric asymmetries in cerebral cortical networks. Trends in Neuroscience. 26 (8): 429-435.
53 Black P., Myers R. E. (1964) Visual function of the forebrain commissures in the chimpanzee. Science. 146 (3645): 799-800.
54 Pasik P., Pasik T. (1982) Visual functions in monkeys after total removal of visual cerebral cortex. In: Neff WD. (ed.) Contributions to sensory physiology (V. 7, P. 147-200). NY: Academic Press.
55 Rilling J. K. et al. (2008) The evolution of the arcuate fasciculus revealed with comparative DTI. Nature Neuroscience. 11 (4): 426-428.
56 Preuss T. M. (2003) What is it like to be a human? In: Gazza-niga M.S. (ed.) The cognitive neurosciences III (P. 14-15). Cambridge, MA: The MIT Press.
57 Elston G. N. (2003) Cortex, cognition and the cell: new insights into the pyramidal neuron and prefrontal function. Cerebral Cortex. 13 (11): 1124-1138.
58 Elston G. N. et al. (2006) Specializations of the granular prefrontal cortex of primates: implications for cognitive processing. The Anatomical Record. 288A (1): 26-35.
59 Williamson A. et al. (1993) Comparison between the membrane and synaptic properties of human and rodent dentate granule cells. Brain Research. 622 (1-2): 194-202.
60 Nimchinsky E. A. et al. (1995) Spindle neurons of the human anterior cingulate cortex. Journal of Comparative Neurology. 355 (1): 27-37.
61 Fajardo C. et al. (2008) Von Economo neurons are present in the dorsolateral (dysgranular) prefrontal cortex of humans. Neuroscience Letters. 435 (3): 215-218.
62 Nimchinsky E. A. et al. (1999) A neuronal morphologic type unique to humans and great apes. Proceedings of the National Academy of Sciences of the United States of America. 96 (9): 5268-5273.
63 Allman J. M. et al. (2005) Intuition and autism: a possible role for von Economo neurons. Trends in Cognitive Science. 9 (8): 367-373.
64 Hakeem A. Y. et al. (2009) Von Economo neurons in the elephant brain. The Anatomical Record. 292 (2): 242-248.
65 Hof P. R., van der Gucht E. (2007) Structure of the cerebral cortex of the humpback whale, Megaptera novaeangliae (Cetacea, Mysticeti, Balaenopteridae). The Anatomical Record. 290 (1): 1-31.
66 Butti C. etal. (2009) Total number and volume of von Economo neurons in the cerebral cortex of cetaceans. Journal of Comparative Neurology. 515 (2): 243-259.
67 Bystron I. et al. (2006) The first neurons of the human cerebral cortex. Nature Neuroscience. 9: 880-886.
Глава 2. Параллельный и распределенный мозг
1 Galton F. (1879) Psychometric experiments. Brain. 2:149-162.
2 Caramazza A., Shelton J. R. (1998) Domain-specific knowledge systems in the brain: the animate-inanimate distinction. Journal of Cognitive Neuroscience. 10 (1): 1-34.
3 Boyer P, Barrett H. C. (2005) Domain specificity and intuitive ontology. In: Buss D.M. (ed.) The handbook of evolutionary psychology (P 96-118). NY: Wiley.
4 Barrett H.C. (2005) Adaptations to predators and prey. In: Buss D.M. (ed.) The handbook of evolutionary psychology (P 200-223). NY: Wiley.
5 Coss R. G. et al. (1993) Development of antisnake defenses in California ground squirrels (Spermophilus beecheyi): II. Microevo-lutionary effects of relaxed selection from rattlesnakes. Behaviour. 124 (1-2): 137-164.
6 См: Stamm J. S., Sperry R. W. (1957) Function of corpus callosum in contralateral transfer of somesthetic discrimination in cats. Journal of Comparative Physiological Psychology. 50 (2): 138-143; а также Glickstein M., Sperry R. W. (1960) Intermanual somesthetic transfer in split-brain rhesus monkeys. Journal of Comparative Physiological Psychology. 53 (4): 322-327.
7 . Akelaitis A. J. (1945) Studies on the corpus callosum: IV. Diagnostic dyspraxia in epileptics following partial and complete section of the corpus callosum. American Journal of Psychiatry. 101: 594-599.
8 См.: Gazzaniga M. S. et al. (1962) Some functional effects of sectioning the cerebral commissures in man. Proceedings of the National Academy of Sciences of the United States of America. 48 (10): 1765-1769; Gazzaniga M.S. et al. (1963) Laterality e] fects in somesthesis following cerebral commissurotomy in man. Neu ropsychologia. 1: 209-215; Gazzaniga M. S. et al. (1965) Obser vations on visual perception after disconnection of the cerebral hem i spheres in man. Brain. 88: 221-236; а также Gazzaniga M.S., Sperry R. W. (1967) Language after section of the cerebral commis sures. Brain. 90:131-348.
9 Van Wagenen W. P, Herren R. Y. (1940) Surgical division of commissural pathways in the corpus callosum: relation to spread of an epileptic attack. Archives of Neurology and Psychiatry. 44 (4): 740-759.
10 Akelaitis A. J. (1941) Studies on the corpus callosum: II. The higher visual functions in each homonymous field following complete section of the corpus callosum. Archives of Neurology and Psychiatry. 45 (5): 788-796.
11 Sperry R. (1984) Consciousness, personal identity and the di vided brain. Neuropsychologia. 22 (6): 661-673.
12 Kutas M. et al. (1990) Late positive event-related potentials after commissural section in humans. Journal of Cognitive Neuroscience. 2 (3): 258-271.
13 Gazzaniga M. S. et al. (1967) Dyspraxia following division of the cerebral commissures. Archives of Neurology. 16 (6): 606-612.
14 См.: Nass R. D., Gazzaniga M. S. (1987) Cerebral late ralization and specialization in human central nervous system. In: Plum F. (ed.) Handbook of physiology (Sec. 1, V. 5, P. 701-761). Bethesda, MD: American Physiological Society; а также Zaidel E. (1990) Language functions in the two hemispheres following cerebral commissurotomy and hemispherectomy. In: Boiler F., Grafman J. (eds.) Handbook of neuropsychology (V. 4, P. 115-150). Amsterdam: Elsevier.
15 Gazzaniga M.S., Smylie C.S. (1990) Hemispheric mechanisms controlling voluntary and spontaneous facial expressions. Journal of Cognitive Neuroscience. 2 (3): 239-245.
16 Sperry R. W. (1968) Hemisphere deconnection and unity in conscious awareness. American Psychologist. 23 (10): 723-733.
17 Gazzaniga M. S. (1972) One brain — two minds? American Scientist. 60 (3): 311-317.
18 Sutherland S. (1989) The international dictionary of psychology. NY: Continuum.
19 Mac Kay D. M. (1991) Behind the eye. Oxford: Basil Blackwell.
20 См.: Phelps E. A., Gazzaniga M.S. (1992) Hemispheric differences in mnemonic processing: the effects of left hemisphere interpretation. Neuropsychologia. 30 (3): 293-297; а также Metcalfe J. et al. (1995) Right-hemisphere memory superiority: studies of a split-brain patient. Psychological Science. 6 (3): 157-164.
21 Nelson M. E., Bower J. M. (1990) Brain maps and parallel computers. Trends in Neurosciences. 13 (10): 403-408.
22 Clarke D. D., Sokoloff L. (1999) Circulation and energy metabolism of the brain. In: Siegel G.J. et al. (eds.) Basic neurochemistry: molecular; cellular and medical aspects (6th ed., P. 637-670). Philadelphia: Lippincott-Raven.
23 Striedter G. (2005) Principles of brain evolution. Sunderland, MA: Sinauer Associates, Inc.
24 Chen B. L. et al. (2006) Wiring optimization can relate neuronal structure and function. Proceedings of the National Academy of Sciences of the United States of America. 103 (12): 4723-4728.
25 См.: Hilgetag С. C. et al. (2000) Anatomical connectivity defines the organization of clusters of cortical areas in the macaque monkey and the cat. Philosophical Transactions of the Royal Society of London. B: Biological Sciences. 355 (1393): 91-110; Sporns O. et al. (2002) Theoretical neuroanatomy and the connectivity of the cerebral cortex. Behavioural Brain Research. 135 (1-2): 69-74; а также Sakata S. et al. (2005) Local design principles of mammalian cortical networks. Neuroscience Research. 51 (3): 309-315.
26 Watts D.J., Strogatz S. H. (1998) Collective dynamics of “small-world” networks. Nature. 393: 440-442.
27 См.: Gazzaniga M. S. (1989) Organization of the human brain. Science. 245 (4921): 947-952; а также Baynes K. et al. (1998) Modular organization of cognitive systems masked by inter hemispheric integration. Science. 280 (5365): 902-905.
28 Volpe B. T. et al. (1979) Information processing of visual stimuli in an “extinguished” field. Nature. 282 (5740): 722-724.
29 Nicolis G., Rouvas-Nicolis C. (2007) Complex systems. Scholarpedia. 2 (11): 1473.
30 Amaral L. A.N., Ottino J.M. (2004) Complex networks. Augmenting the framework for the study of complex systems. European Physical Journal B. 38: 147-162.
31 Varian H. R. (2007) Position auctions. International Journal of Industrial Organization. 25 (6): 1163-1178.
Глава 3. Интерпретатор
1 Aglioti S. et al. (1995) Size-contrast illusions deceive the eye but not the hand. Current Biology. 5 (6): 679-685.
2 Dehaene S. et al. (1998) Imaging unconscious semantic priming. Nature. 395: 597-600.
3 He S., MacLeod D.I.A. (2001) Orientation-selective adaptation and tilt after-effect from invisible patterns. Nature. 411: 473-476.
4 Gazzaniga M.S. (1989) Organization of the human brain. Science. 245 (4921): 947-952.
5 Derks P. L., Paclisanu M. I. (1967) Simple strategies in binary prediction by children and adults. Journal of Experimental Psychology. 73 (2): 278-285.
6 Wolford G. et al. (2000) The left hemisphere's role in hypothesis formation. Journal of Neuroscience. 20 (6): RC64.
7 Kleck R. E., Strenta A. (1980) Perceptions of the impact of negatively valued physical characteristics on social integration. Journal of Personality and Social Psychology. 39 (5): 861-873.
8 Schachter S., Singer J. E. (1962) Cognitive, social, physiological determinants of emotional state. Psychology Review. 69: 379-399.
9 Miller M.B., Valsangkar-Smyth M. (2005) Probability matching in the right hemisphere. Brain and Cognition. 57 (2): 165-167.
10 Wolford G. et al. (2004) Split decisions. In: Gazzaniga M.S. (ed.) The cognitive neurosciences III (P. 1189-1199). Cambridge, MA: The MIT Press.
11 Corballis P. (2003) Visuospatialprocessing and the right-hemisphere interpreter. Brain and Cognition. 53 (2): 171-176.
12 Corballis P. M. et al. (1999) Illusory contour perception and a modal boundary completion: evidence of a dissociation following callosotomy. Journal of Cognitive Neuroscience. 11 (4): 459-466.
13 Corballis P. M. etal. (2002) Hemispheric asymmetries for simple visual judgments in the split brain. Neuropsychologia. 40 (4): 401-410.
14 Corballis M.C., Sergent J. (1988) Imagery in a commis-surotomized patient. Neuropsychologia. 26 (1): 13-26.
15 См.: Funnell M. G. et al. (2003) Temporal discrimination in the split brain. Brain and Cognition. 53 (2): 218-222; а также Handy T. C. et al. (2003) Cortical and subcortical contributions to the representation of temporal information. Neuropsychologia. 41 (11): 1461-1473.
16 Hikosaka O. etal. (1993) Focal visual attention produces illusory temporal order and motion sensation. Vision Research. 33 (9): 1219-1240.
17 Tse P. et al. (1998) The role of parsing in high-level motion processing. In: Watanabe T. (ed.) High-level motion processing: computational, neurobiological, and psychophysical perspectives (P 249-266). Cambridge, MA: The MIT Press.
18 Corballis P. M. et al. (2002) An investigation of the line motion effect in a callosotomy patient. Brain and Cognition. 48 (2-3): 327-332.
19 Ramachandran V. S. (1995) Anosognosia in parietal lobe syndrome. Conciousness and Cognition. 4 (1): 22-51.
20 Hirstein W., Ramachandran V. S. (1997) Capgras syndrome: a novel probe for understanding the neural representation of the identity and familiarity of persons. Proceedings of the Royal Society of London. B: Biological Sciences. 264 (1380): 437-444.
21 Doran J. M. (1990) The Capgras syndrome: neurological/neuropsychological perspectives. Neuropsychology. 4 (1): 29-42.
22 Roser M. E. et al. (2005) Dissociating processes supporting causal perception and causal inference in the brain. Neuropsychology. 19 (5): 591-602.
23 Gazzaniga M. S. (1983) Right hemisphere language following brain bisection: a 20-year perspective. American Psychologist. 38 (5): 525-537.
24 Gazzaniga M. S., LeDoux J. E. (1978) The integrated mind. NY: Plenum Press.
25 Roser M., Gazzaniga M. S. (2004) Automatic brains — interpretive minds. Current Directions in Psychological Science. 13 (2): 56-59.
Глава 4. Отказ от понятия свободы воли
1 Частная беседа.
2 Fried I. et al. (1991) Functional organization of human supplementary motor cortex studied by electrical stimulation. Journal of Neuroscience. 11 (11): 3656-3666.
3 Thaler D. et al. (1995) The functions of the medial premotor cortex. /. Simple learned movements. Experimental Brain Research. 102 (3): 445-460.
4 Lau H. et al. (2006) Dissociating response selection and conflict in the medial frontal surface. Neuroimage. 29 (2): 446-451.
5 Lau H. CL et al. (2007) Manipulating the experienced onset of intention after action execution. Journal of Cognitive Neuroscience. 19 (1): 1-10.
6 Vohs K. D., Schooler J. W. (2008) The value in believing in free will. Encouraging a belief in determinism increases cheating. Psychological Science. 19 (1): 49-54.
7 См.: Harmon-Jones Е., Mills J. (1999) Cognitive dissonance: progress on a pivotal theory in social psychology. Washington, DC: American Psychological Association; а также Mueller C.M., Dweek C.S. (1998) Intelligence praise can undermine motivation and performance. Journal of Personality and Social Psychology. 75: 33-52.
8 См.: Baumeister R. F. et al. (1998) Ego depletion: is the active self a limited resource? Journal of Personality and Social Psychology. 4: 1252-1265; Gailliot M. T. et al. (2007) Self-control relies on glucose as a limited energy source: willpower is more than a metaphor. Journal of Personality and Social Psychology. 92: 325-336; а также Vohs K. D. et al. (2008) Making choices impairs subsequent self-control: a limited-resource account of decision making, self-regulation, and active initiative. Journal of Personality and Social Psychology. 94: 883-898.
9 Baumeister R. F. et al. (2009) Prosocial benefits of feeling free: disbelief in free will increases aggression and reduces helpfulness. Personality and Social Psychology Bulletin. 35 (2): 260-268.
10 Dawkins R. (2006) Let's all stop beating Basil's car. Cm.: https://edge.org/q2006/q06_9.html
11 O’Connor J.J., Robertson E. F. (2008) Edward Norton Lorenz. Cm.: http://www-history.mcs.st-andrews.ac.uk/Biographies/Lorenz_Edward.html
12 Feynman R. (1998) The meaning of it all. NY: Perseus Books Group.
13 Bohr M. (1937) Causality and complementarity. Philosophy of Science. 4 (3): 289-298.
14 Isaacson W. (2007) Einstein: his life and universe. NY: Simon & Schuster.
15 Pattee H. H. (2001) Causation, control, and the evolution of complexity. In: Andersen R B. et al. (eds.) Downward causation: minds, bodies and matter (P 63-77). Copenhagen: Aarhus University Press.
16 Goldstein J. (1999) Emergence as a construct: history and issues. Emergence: Complexity and Organization. 1 (1): 49-72.
17 Laughlin R. B. (2006) A different universe: reinventing physics from the bottom down. NY: Basic Books.
18 Feynman R. P. et al. (1995) Six easy pieces: essentials of physics explained by its most brilliant teacher (P. 135). NY: Basic Books.
19 Bunge M. (2010) Matter and mind: a philosophical inquiry (P. 77). Dordrecht: Springer Verlag.
20 Libet B. et al. (1979) Subjective referral of the timing for a conscious sensory experience: a functional role for the somatosensory specific projection system in man. Brain. 102 (1): 193-224.
21 Libet B. et al. (1983) Time of conscious intention to act in relation to onset of cerebral activity (readiness-potential): the unconscious initiation of a freely voluntary act. Brain. 106 (3): 623-642.
22 Soon C. S. et al. (2008) Unconscious determinants of free decisions in the human brain. Nature Neuroscience. 11 (5): 543-545.
23 Prinz A. A. et al. (2004) Similar network activity from disparate circuit parameters. Nature Neuroscience. 7 (12): 1345-1352.
24 Anderson P. W. (1972) More is different. Science. 177 (4047): 393-396.
25 Locke J. (1689) An essay concerning human understanding (1849 ed., P. 155). Philadelphia: Kay & Troutman.
26 Krakauer D. Частная беседа.
27 Bassett D.S., Gazzaniga M.S. (2011) Understanding complexity in the human brain. Trends in Cognitive Science. 15 (5): 200-209.
Глава 5. Социальный разум
1 Legerstee M. (1991) The role of person and object in eliciting early imitation. Journal of Experimental Child Psychology. 51 (3): 423-433.
2 См. обзор: Puce A., Perrett D. (2003) Electrophysiology and brain imaging of biological motion. Philosophical Transactions of the Royal Society of London. B: Biological Sciences. 358: 435-446.
3 Heider R, Simmel M. (1944) An experimental study of apparent behavior. American Journal of Psychology. 57 (2): 243-259.
4 Premack D., Premack A. (1997) Infants attribute value to the goal-directed actions of self-propelled objects. Journal of Cognitive Neuroscience. 9 (6): 848-856.
5 Hamlin J. K. et al. (2007) Social evaluation by preverbal infants. Nature. 450: 557-559.
6 Warneken R, Tomasello M. (2007) Helping and cooperation at 14 months of age. Infancy. 11 (3): 271-294.
7 Warneken F. et al. (2007) Spontaneous altruism by chimpanzees and young children. PLoS Biology. 5 (7): 1414-1420.
8 Warneken F., Tomasello M. (2006) Altruistic helping in human infants and young chimpanzees. Science. 311 (5765): 1301-1303.
9 Liszkowski U. et al. (2006) 12- and 18-month-olds point to provide information for others. Journal of Cognition and Development. 7 (2): 173-187.
10 Warneken F., Tomasello M. (2009) Varieties of altruism in children and chimpanzees. Trends in Cognitive Science. 13 (9): 397-402.
11 Olson K. R., Spelke E. S. (2008) Foundations of cooperation in young children. Cognition. 108 (1): 222-231.
12 Melis A. P. et al. (2008) Do chimpanzees reciprocate received favours? Animal Behaviour. 76 (3): 951-962.
13 Rakoczy H. et al. (2008) The sources of normativity: young children's awareness of the normative structure of games. Developmental Psychology. 44 (3): 875-881.
14 Stephens G.J. et al. (2010) Speaker-listener neural coupling underlies successful communication. Proceedings of the National Academy of Sciences of the United States of America. 107 (32): 14425-14430.
15 Jolly A. (1966) Lemur and social behavior and primate intelligence. Science. 153 (3735): 501-506.
16 Byrne R. W., Whiten A. (1988) Machiavellian intelligence: social expertise and the evolution of intellect in monkeys, apes, and humans. Oxford: Clarendon Press.
17 Byrne R. W., Corp N. (2004) Neocortex size predicts deception rate in primates. Proceedings of the Royal Society of London. B: Biological Sciences. 271 (1549): 1693-1699.
18 Moll H., Tomasello M. (2007) Cooperation and human cognition: the Vygotskian intelligence hypothesis. Philosophical Transactions of the Royal Society of London. B: Biological Sciences. 362 (1480): 639-648.
19 Dunbar R. I. M. (1998) The social brain hypothesis. Evolutionary Anthropology. 6 (5): 178-190.
20 Dunbar R. I. M. (1993) Coevolution of neocortical size, group size and language in humans. Behavioral and Brain Sciences. 16 (4): 681-735.
21 Hill R. A., Dunbar R. I.M. (2003) Social network size in humans. Human Nature. 14 (1): 53-72.
22 Roberts S. G. B. et al. (2009) Exploring variation in active network size: constraints and ego characteristics. Social Networks. 1 (2): 138-146.
23 Dunbar R. I. M. (1996) Grooming, gossip, and the evolution of language. Cambridge, MA: Harvard University Press.
24 Papineau D. (2005) Social learning and the Baldwin effect. In: Zilhao A. (ed.) Evolution, rationality and cognition: a cognitive science for the twenty-first century (P. 40-60). NY: Routledge.
25 Baldwin J. M. (1896) A new factor in evolution. The American Naturalist. 30 (354): 441-451.
26 Krubitzer L., Kaas J. (2005) The evolution of the neocortex in mammals: how is phenotypic diversity generated? Current Opinion in Neurobiology. 15 (4): 444-453.
27 Lewontin R. C. (1982) Organism and environment. In: Plot-kin H. C. (ed.) Learning, development and culture: essays in evolutionary epistemology (P 151-171). NY: Wiley.
28 Odling-Smee F. J. et al. (2003) Niche construction: the neglected process in evolution. Princeton, NJ: Princeton University Press.
29 Flack J. C. et al. (2005) Social structure, robustness, and policing cost in a cognitively sophisticated species. The American Naturalist. 165 (5): E126 — E139.
30 Flack J. C. et al. (2005) Robustness mechanisms in primate societies: a perturbation study. Proceedings of the Royal Society of London. B: Biological Sciences. 272 (1568): 1091-1099.
31 Belyaev D. (1979) Destabilizing selection as a factor in domestication. Journal of Heredity. 70 (5): 301-308.
32 Hare B. et al. (2005) Social cognitive evolution in captive foxes is a correlated by-product of experimental domestication. Current Biology. 15 (3): 226-230.
33 Allport F. H. (1924) Social psychology. Boston: Houghton Mifflin.
34 Emler N. (1994) Gossip, reputation, and adaptation. In: Goodman R.F., Ben-Ze’ev A. (eds.) Good gossip (P. 117-138). Lawrence, KS: University Press of Kansas.
35 Call J., Tomasello M. (2008) Does the chimpanzee have a theory of mind? jo years later. Trends in Cognitive Science. 12 (5): 187-192.
36 Bloom P, German T. P. (2000) Two reasons to abandon the false belief task as a test of theory of mind. Cognition. 77 (1): B25 — B31.
37 Buttelmann D. et al. (2009) Eighteen-month-old infants show false belief understanding in an active helping paradigm. Cognition. 112 (2): 337-342.
38 Cm.: Baron-Cohen S. (1995) Mindblindness: an essay on autism and theory of mind. Cambridge, MA: The MIT Press; а также Baron-Cohen S. et al. (1985) Does the autistic child have a “theory of mind”? Cognition. 21 (1): 37-46.
39 Rizzolatti G. et al. (1996) Premotor cortex and the recognition of motor actions. Cognitive Brain Research. 3 (2): 131-141.
40 Fadiga L. et al. (1995) Motor facilitation during action observation: a magnetic stimulation study. Journal of Neurophysiology. 73 (6): 2608-2611.
41 Singer T. et al. (2004) Empathy for pain involves the affective hut not sensory components of pain. Science. 303 (5661): 1157-1162.
42 Jackson P. L. et ai. (2005) How do we perceive the pain of others? A window into the neural processes involved in empathy. Neurolma-ge. 24 (3): 771-779-
43 Dimberg U. et al. (2000) Unconscious facial reactions to emotional facial expressions. Psychological Science. 11 (1): 86-89.
44 Chartrand T. L., Bargh J. A. (1999) The chameleon effect: the perception-behavior link and social interaction. Journal of Personality and Social Psychology. 76 (6): 893-910.
45 Giles H., Powesland P. F. (1975) Speech style and social evaluation. London: Academic Press.
46 См. обзор: Chartrand T. L. et al. (2005) Beyond the perception-behavior link: the ubiquitous utility and motivational moderators of nonconscious mimicry. In: Hassin R. R. et al. (eds.) The new unconscious (P. 334-361). NY: Oxford University Press.
47 Van Baaren R. B. et al. (2004) Mimicry and prosocial behavior. Psychological Science. 15 (1): 71-74.
48 Chaiken S. (1980) Heuristic versus systematic information processing and the use of source versus message cues in persuasion. Journal of Personality and Social Psychology. 39 (5): 752-766.
49 Hatfield E. et al. (1993) Emotional contagion. Current Directions in Psychological Sciences. 2 (3): 96-99.
50 Lanzetta J. T., Englis B. G. (1989) Expectations of cooperation and competition and their effects on observers' vicarious emotional responses. Journal of Personality and Social Psychology. 56 (4): 543-554.
51 Bourgeois R, Hess U. (1999) Emotional reactions to political leaders' facial displays: a replication. Psychophysiology. 36: S36.
52 Bourgeois R, Hess U. (2007) The impact of social context on mimicry. Biological Psychology. 77 (3): 343-352.
53 Доклад, представленный на конференции: Yabar Y. et al. (2001) Dis-moi si vous êtes intimes, je te dirais si tu mimes [Tell me if you're intimate and I'll tell you if you'll mimic]. 24th annual meeting of the Société Québécoise pour la Recherche en Psychologie. Chicoutimi, Canada.
54 De Waal F. (2001) The ape and the sushi master: cultural reflections of a primatologist. NY: Basic Books.
55 См.: Baner G., Harley H. (2001) The mimetic dolphin. Beha-viorial and Brain Sciences. 24 (2): 326-327. [Комментарий к статье Rendell L., Whitehead H. (2001) Culture in whales and dolphins. Behaviorial and Brain Sciences. 24 (2): 309-324.]
56 См.: Visalbergi-ii E., Fragaszy D. M. (1990) Do monkeys ape? In: Parker S.T., Gibson K.R. (eds.) Language and intelligence in monkeys and apes (E 247-273). Cambridge: Cambridge University Press; а также Whiten A., Ham R. (1992) On the nature and evolution of imitation in the animal kingdom: reappraisal of a century of research. In: Slater P.J.B. et al. (eds.) Advances in the study of behavior (P. 239-283). NY: Academic Press.
57 Kumashiro M. et al. (2003) Natural imitation induced by joint attention in Japanese monkeys. International Journal of Psychophysiology. 50 (1-2): 81-99.
58 Hume D. (1777) An enquiry concerning the principles of morals (i960 ed., P. 2). La Salle, IL: Open Court.
59 Brown D. E. (1991) Human universals. NY: McGraw-Hill.
60 Haidt J. (2010) Morality. In: Fiske S.T. et al. (eds.) Handbook of social psychology (5th ed., V. 2, P. 797-832). Hoboken, NJ: Wiley.
61 Haidt J. (2001) The emotional dog and its rational tail: a social intuitionist approach to moral judgment. Psychological Review. 108 (4): 814-834.
62 Haidt J., Bjorklund F. (2008) Social intuitionists answer six questions about moral psychology. In: Sinnott-Armstrong W (ed.) Moral psychology (V 2, P 181-217). Cambridge, MA: The MIT Press.
63 Westermarck E. A. (1891) The history of human marriage. NY: Macmillan.
64 См.: ShepherJ. (1983) Incest: a biosocial view. Orlando, FL: Academic Press; а также Wolf A. P. (1970) Childhood association and sexual attraction: a further test of the Westermarck hypothesis. American Anthropologist. 72 (3): 864-874.
65 Lieberman D. et al. (2002) Does morality have a biological basis? An empirical test of the factors governing moral sentiments relating to incest. Proceedings of the Royal Society of London. B: Biological Sciences. 270 (1517): 819-826.
66 Greene J. D. et al. (2001) An fMRI investigation of emotional engagement in moral judgment. Science. 293 (5537): 2105-2108.
67 Hauser M. (2006) Moral minds. NY: Harper Collins.
68 Koenigs M. et al. (2007) Damage to the prefrontal cortex increases utilitarian moral judgements. Nature. 446: 908-911.
69 Pinker S. (2008, January 13) The moral instinct. The New York Times. Cm.:
70 См.: Haidt J., Joseph C. (2004) Intuitive ethics: how innately prepared intuitions generate culturally variable virtues. Daedalus. 133 (4): 55-66; а также Haidt J., Bjorklund F. (2008) Social intuitionists answer six questions about moral psychology. In: Sinnott-Armstrong W (ed.) Moral psychology (V. 2, P 181-217). Cambridge, MA: The MIT Press.
71 Darwin C. (1871) The descent of man. In: Adler M.J. (ed.) Great books of the western world (1952 ed., V. 49, P 322). Chicago: Encyclopaedia Britannica, Inc.
72 Knoch D. et al. (2006) Diminishing reciprocal fairness by disrupting the right prefrontal cortex. Science. 314 (5800): 829-832.
73 Anderson S. W. et al. (1999) Impairment of social and moral behavior related to early damage in human prefrontal cortex. Nature Neuroscience. 2 (11): 1032-1037.
Глава 6. Мы есть закон
1 Van В i ем a D. (1997, March 3) A murder in Florida revives an earlier horror and raises questions about the aftermath of punishment. Time. Cm.: http://time.com
2 Spake A. (1997, March 5) Newsreal: the return of Larry Single-ton. Salon. Cm.: http://salon.com
3 Puit G. (2002, January 6) 1978 Mutilation: family relieved by Singletons death. Review-Journal. См.: http://crimeshots.com/VincentNightmare.html
4 Taylor M. (2002, January 1) Lawrence Singleton, despised ra-pisty dies /He chopped off teenager's arms in 19/8. San Francisco Chronicle. Cm.: http://sfgate.com
5 Harrower J. (1998) Applying psychology to crime. Hillsdale, NJ: Lawrence Erlbaum Associates.
6 Hackett R. (2003, January 30) A victim, a survivor; an artist. Seattle Post-Intelligencer. Cm.: http://seattlepi.com
7 Nisbett R. E. et al. (2001) Culture and systems of thought: holistic versus analytic cognition. Psychological Review. 108 (2): 291-310.
8 Nisbett R. E. (2003) The geography of thought: how Asians and Westerners think differently and why (P 2-3,5). NY: Free Press.
9 Hedden T. et al. (2008) Cultural influences on neural substrates of attentional control. Psychological Science. 19 (1): 12-17.
10 Uskul A. K. et al. (2008) Ecocultural basis of cognition: farmers and fishermen are more holistic than herders. Proceedings of the National Academy of Sciences of the United States of America. 105 (25): 8552-8556.
11 Кім H. S. et al. (2010) Culture, serotonin receptor polymorphism and locus of attention. Social Cognitive and Affective Neuroscience. 5: 212-218.
12 Частная беседа.
13 United Kingdom House of Lords decisions (1843, May 26, June 19). Daniel M’Naghten’s case. Cm.: http://www.bailii.org/uk/cases/ UKHL/1843/J16.html
14 Weisberg D. S. etal. (2008) The seductive allure of neuroscience explanations. Journal of Cognitive Neuroscience. 20: 470-477.
15 Shariff A. F. et al. (2014) Free will and punishment: a mechanistic view of human nature reduces retribution. Psychological Science. 25 (8): 1563-1570.
16 The President’s council on bioethics (2004). An overview of the impact of neuroscience evidence in criminal law. Cm.: https:// bioethicsarchive.georgetown.edu/pcbe/background/neuroscience_ evidence.html
17 Sc alia A. (2002) Atkins v. Virginia (00-8452) 556 U.S. 504. Cm.: https://law.comell.edu/supct/html/00-8452.ZO.html
18 Snead О. C. (2006) Neuroimaging and the courts: standards and illustrative case index. Cm.: http://ncsc.org
19 Talairach P. T., Tournoux P. (1988) Co-planar stereotaxic atlas for the human brain. 3-D proportional system: an approach to cerebral imaging (P VII). NY: Thicme Medical Publishers.
20 Miller M. B. et al. (2002) Extensive individual differences in brain activations associated with episodic retrieval are reliable over time. Journal of Cognitive Neuroscience. 14 (8): 1200-1214.
21 Doron C., Gazzaniga M.S. (2009) Neuroimaging techniques offer new perspectives on callosal transfer and interhemi-spheric communication. Cortex. 44 (8): 1023-1029.
22 Putman M.C. et al. (2009) Cortical projection topography of the human splenium: hemispheric asymmetry and individual difference. Journal of Cognitive Neuroscience. 22 (8): 1662-1669.
23 Desmurget M. et al. (2009) Movement intention after parietal cortex stimulation in humans. Science. 324 (811): 811-813.
24 Brass M., Haggard P. (2008) The what, when, whether model of intentional action. Neuroscientist. 14 (4): 319-325.
25 Brass M., Haggard P. (2007) To do or not to do: the neural signature of self-control. Journal of Neuroscience. 27 (34): 9141-9145.
26 Kuhn S. et al. (2009) Intentional inhibition: how the “veto-area” exerts control. Human Brain Mapping. 30 (9): 2834-2843.
27 Schaukr F. (2010) Neuroscience, lie-detection, and the law: contrary to the prevailing view, the suitability of brain-based lie-detection for courtroom or forensic use should be determined according to legal and not scientific standards. Trends in Cognitive Science. 14 (3): 101-103.
28 Bond C.F., de Paulo B.M. (2006) Accuracy of deception judgments. Personality and Social Psychology Review. 10: 214-234.
29 Meisser С. A., Bigham J. С. (2001) Thirty years of investigating the own race bias in memory for faces: a meta-analytic review. Psychology, Public Policy, and Law. 7 (1): 3-35.
30 Connors E. etal. (1996) Convicted by juries, exonerated by science: case studies in the use of DNA evidence to establish innocence after trial. Washington, DC: National Institute of Justice.
31 Turk D. J. et al. (2005) Can perceptual expertise account for the own-race bias in face recognition? A split-brain study. Cognitive Neuropsychology. 22 (7): 877-883.
32 Harris L. T., Fiske S.T. (2006) Dehumanizing the lowest of the low: neuroimaging responses to extreme out-groups. Psychological Science. 17 (10): 847-853.
33 Wilkinson R. A. (1997) A shifting paradigm: modern restorative justice principles have their roots in ancient cultures. Corrections Today. Cm.: http://drc.ohio.gov
34 Постерный доклад, представленный на конференции: Sloane S., Baillargeon R. (2010) 2.5-year-olds divide resources equally between two identical non-human agents. Annual meeting of the International Society of Infant Studies. Baltimore, MD.
35 Постерный доклад, представленный на конференции: Geraci A., Surian L. (2010) Sixteen-month-olds prefer agents that perform equal distributions. Annual meeting of the International Society of Infant Studies. Baltimore, MD.
36 Постерный доклад, представленный на конференции: Не Z., Baillargeon R. (2010) Reciprocity within but not across groups: 2.5-year-olds' expectations about ingroup and outgroup agents. Annual meeting of the International Society of Infant Studies. Baltimore, MD.
37 Постерный доклад, представленный на конференции: Vaish A. et al. (2010) Moral mediators of young children's prosocial behavior toward victims and perpetrators. Annual meeting of the International Society of Infant Studies. Baltimore, MD.
38 Harris P. L., Nunez M. (1996) Understanding permission rules by preschool children. Child Development. 67 (4): 1572-1591.
39 Hamlin J. K: et al. (2011) How infants and toddlers react to antisocial others. Proceedings of the National Academy of Sciences of the United States of America. 108 (50): 19931-19936.
40 Carlsmith K. M. (2006) The roles of retribution and utility in determining punishment. Journal of Experimental Social Psycho-logy. 42: 437-451-
41 Darle y J. M. et al. (2000) Incapacitation and just deserts as motives for punishment. Law and Human Behavior. 24: 659-683.
42 Carlsmith K. M., Darley J. M. (2008) Psychological aspects of retributive justice. In: Zanna M. P (ed.) Advances in experimental social psychology (V 40, P. 193-236). San Diego, CA: Elsevier.
43 Carlsmith K. M. (2008) On justifying punishment: the discrepancy between works and actions. Social Justice Research. 21: 119-137.
44 Buckholtz J. W. et al. (2008) The neural correlates of third-party punishment. Neuron. 60: 930-940.
45 Richards J. R. (2000) Human nature after Darwin (P 210). NY: Routledge.
46 Boyd R. et al. (2003) The evolution of altruistic punishment. Proceedings of the National Academy of Sciences of the United States of America. 100 (6): 3531-3535.
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