1
Мобиль (от англ. mobile) – вращающаяся подвесная игрушка с разноцветными фигурками, которую обычно вешают над детской кроваткой. – Прим. перев.
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Конфабуляции (лат. confabulari – болтать, рассказывать) – ложные воспоминания, в которых факты, бывшие в действительности, переносятся в другое время и сочетаются с вымышленными событиями. – Прим. ред.
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Nahum L., Bouzerda-Wahlen A., Guggisberg A., Ptak R. & Schnider A. (2012). Forms of confabulation: dissociations and associations. Neuropsychologia, 50 (10): 2524–2534.
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Hyman Jr. I. E. & Pentland J. (1996). The role of mental imagery in the creation of false childhood memories. Journal of Memory and Language, 35 (2): 101–117.
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Miller G. A. (1956). The magical number seven, plus or minus two: some limits on our capacity for processing information. Psychological Review, 63 (2): 81.
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Cowan N. (2001). The magical number 4 in short-term memory: a reconsideration of mental storage capacity. Behavioral and Brain Sciences, 24: 87–185.
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Tamnes C. K., Walhovd K. B., Grydeland H., Holland D., Østby Y., Dale A. M. & Fjell A. M. (2013). Longitudinal working memory development is related to structural maturation of frontal and parietal cortices. Journal of Cognitive Neuroscience, 25 (10): 1611–1623.
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Freeman W. (1967). Multiple lobotomies. American Journal of Psychiatry, 123 (11): 1450–1452.
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Miller G. A. (1956). The magical number seven, plus or minus two: some limits on our capacity for processing information. Psychological Review, 63 (2): 81.
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Wang Q. & Peterson C. (2014). Your earliest memory may be earlier than you think: prospective studies of children’s dating of earliest childhood memories. Developmental Psychology, 50 (6): 1680.
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Miles C. (1895). A study of individual psychology. American Journal of Psychology, 6: 534–558.
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When Do Babies Develop Memories? http://abcnews.go.com/Technology/story?id=97848.
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Lie E. & Newcombe N. S. (1999). Elementary school children’s explicit and implicit memory for faces of preschool classmates. Developmental Psychology, 35 (1): 102.
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Knickmeyer R. C., Gouttard S., Kang C., Evans D., Wilber K., Smith J. K. et al. (2008). A structural MRI study of human brain development from birth to 2 years. Journal of Neuroscience, 28 (47): 12176–12182.
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Caviness Jr. V. S., Kennedy D. N., Richelme C., Rademacher J. & Filipek P. A. (1996). The human brain age 7–11 years: a volumetric analysis based on magnetic resonance images. Cerebral Cortex, 6 (5): 726–736.
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Abitz M., Nielsen R. D., Jones E. G., Laursen H., Graem N. & Pakkenberg B. (2007). Excess of neurons in the human newborn mediodorsal thalamus compared with that of the adult. Cerebral Cortex, 17 (11): 2573–2578.
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Huttenlocher P. R. (1990). Morphometric study of human cerebral cortex development. Neuropsychologia, 28 (6): 517–527.
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Chechik G., Meilijson I. & Ruppin E. (1998). Synaptic pruning in development: a computational account. Neural Computation, 10 (7): 1759–1777.
22
Erdelyi M. H. (1994). In Memoriam to Dr. Nicholas P. Spanos. International Journal of Clinical and Experimental Hypnosis, 42 (4).
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Spanos N. P., Burgess C. A., Burgess M. F., Samuels C. & Blois W. O. (1999). Creating false memories of infancy with hypnotic and non-hypnotic procedures. Applied Cognitive Psychology, 13 (3): 201–218.
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Spanos N. P., Burgess C. A. & Burgess M. (1994). Past-life identities, UFO abductions, and satanic ritual abuse: the social construction of memories. International Journal of Clinical and Experimental Hypnosis, 42 (4): 433–446.
25
Braun K. A., Ellis R. & Loftus E. F. (2002). Make my memory: How advertising can change our memories of the past. Psychology & Marketing, 19 (1): 1–23.
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Strange D., Sutherland R. & Garry M. (2006). Event plausibility does not determine children’s false memories. Memory, 14 (8): 937–951.
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Строка из стихотворения американского поэта Э. Э. Каммингса «Along the brittle treacherous bright streets…». – Прим. перев.
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Более подробную информацию см. на сайтах arhopwood.com и falsememoryarchive.com.
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Собор в Ковентри был законсервирован в виде руин как памятник, и рядом был построен новый собор. – Прим. ред.
30
Flavell J. H. & Wellman H. M. (1975). Metamemory.
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Shonkoff J. P., Garner A. S., Siegel B. S., Dobbins M. I., Earls M. F., McGuinn L. et al. (2012). The lifelong effects of early childhood adversity and toxic stress. Pediatrics, 129 (1): e232–e246.
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#платье.
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http://www.independent.co.uk/news/science/remember-the-dress-brain-scientists-now-see-the-internet-meme-as-an-invaluable-research-tool-10251422.html; Lafer-Sousa R., Hermann K. L. & Conway B. R. (2015). Striking individual differences in color perception uncovered by ‘the dress’ photograph. Current Biology, 25 (13): R545–R546.
34
Gegenfurtner K. R., Bloj M. & Toscani M. (2015). The many colours of ‘the dress’. Current Biology, 25 (13): R543–R544.
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Winkler A. D., Spillmann L., Werner J. S. & Webster M. A. (2015). Asymmetries in blue-yellow color perception and in the color of ‘the dress’. Current Biology, 25 (13): R547–R548.
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Korva N., Porter S., O’Connor B. P., Shaw J. & ten Brinke L. (2013). Dangerous decisions: Influence of juror attitudes and defendant appearance on legal decision-making. Psychiatry, Psychology and Law, 20 (3): 384–398.
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Ambady N. & Rosenthal R. (1992). Thin slices of expressive behavior as predictors of interpersonal consequences: a meta-analysis. Psychological Bulletin, 111 (2): 256–274.
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Cahill L. & McGaugh J. L. (1998). Mechanisms of emotional arousal and lasting declarative memory. Trends in Neurosciences, 21 (7): 294–299.
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Cahill L. & McGaugh J. L. (1995). A novel demonstration of enhanced memory associated with emotional arousal. Consciousness and Cognition, 4 (4): 410–421.
41
Schilling Thomas M. et al. (2013). For whom the bell (curve) tolls: cortisol rapidly affects memory retrieval by an inverted U-shaped dose – response relationship. Psychoneuroendocrinology 38 (9): 1565–1572.
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Pearce S. A., Isherwood S., Hrouda D., Richardson P. H., Erskine A. & Skinner J. (1990). Memory and pain: tests of mood congruity and state dependent learning in experimentally induced and clinical pain. Pain, 43 (2): 187–193.
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Tulving E. (2002). Chronesthesia: Conscious awareness of subjective time.
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Buehler R., Griffin D. & Peetz J. (2010). The planning fallacy: cognitive, motivational, and social origins. Advances in Experimental Social Psychology, 43, 1–62.
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Buehler R., Griffin D. & Ross M. (1994). Exploring the ‘planning fallacy’: why people underestimate their task completion times. Journal of Personality and Social Psychology, 67 (3): 366.
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Tobin S., Bisson N. & Grondin S. (2010). An ecological approach to prospective and retrospective timing of long durations: a study involving gamers. PloS One, 5 (2): e9271.
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Gaskell G. D., Wright D. B. & O’Muircheartaigh C. A. (2000). Telescoping of landmark events: implications for survey research. Public Opinion Quarterly, 64 (1): 77–89.
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Janssen S., Chessa A. & Murre J. (2005). The reminiscence bump in autobiographical memory: effects of age, gender, education, and culture. Memory, 13 (6): 658–668.
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Conway M. A., Wang Q., Hanyu K. & Haque S. (2005). A cross-cultural investigation of autobiographical memory: on the universality and cultural variation of the reminiscence bump. Journal of Cross-Cultural Psychology, 36 (6): 739–749.
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Hunt K. L. & Chittka L. (2015). Merging of long-term memories in an insect. Current Biology, 25 (6): 741–745.
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Hunt K. & Chittka L. (2014). False memory susceptibility is correlated with categorisation ability in humans. F1000Research, 3.
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Baudry M., Bi X., Gall C. & Lynch G. (2011). The biochemistry of memory: The 26 year journey of a ‘new and specific hypothesis’. Neurobiology of learning and memory, 95 (2), 125–133.
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Fioriti L., Myers C., Huang Y. Y., Li X., Stephan J. S., Kandel E. R. et al. (2015). The persistence of hippocampal-based memory requires protein synthesis mediated by the prion-like protein CPEB3. Neuron, 86 (6): 1433–1448. Stephan J. S., Fioriti L., Lamba N., Colnaghi L., Karl K., Derkatch I. L. & Kandel E. R. (2015). The CPEB3 protein is a functional prion that interacts with the actin cytoskeleton. Cell Reports, 11 (11): 1772–1785.
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Nader K., Schafe G. E. & Le Doux J. E. (2000). Fear memories require protein synthesis in the amygdala for reconsolidation after retrieval. Nature, 406 (6797): 722–726.