4. Making Brains One Module at a Time

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  2.     Michael S. Gazzaniga, “Brain Mechanisms and Conscious Experience,” Experimental and Theoretical Studies of Consciousness, CIBA Foundation Symposium 174 (Chichester, U.K.: John Wiley and Sons, 1993), 247–62.

  3.     Edoardo Bisiach and Claudio Luzzatti, “Unilateral Neglect of Representational Space,” Cortex 14 (1978), 129–33.

  4.     Patrik Vuilleumier, “Mapping the Functional Neuroanatomy of Spatial Neglect and Human Parietal Lobe Functions: Progress and Challenges,” Annals of the New York Academy of Sciences 1296 (2013), 50–74.

  5.     Bruce T. Volpe, Joseph E. Ledoux, and Michael Gazzaniga, “Information Processing of Visual Stimuli in an ‘Extinguished’ Field,” Nature 282 (1979), 722–24.

  6.     Reinhold Messner, The Naked Mountain (Seattle: The Mountaineers Books, 2003), 299.

  7.     W. Dewi Rees, “The Hallucinations of Widowhood,” British Medical Journal 4 (1971), 37.

  8.     Shahar Arzy et al., “Induction of an Illusory Shadow Person,” Nature 443 (2006), 287.

  9.     Olaf Blanke et al., “Neurological and Robot-Controlled Induction of an Apparition,” Current Biology 24 (2014), 2681–86.

  10.   Ibid.

  11.   Frederico A. C. Azevedo et al., “Equal Numbers of Neuronal and Nonneuronal Cells Make the Human Brain an Isometrically Scaled-up Primate Brain,” Journal of Comparative Neurology 513 (2009), 532–41.

  12.   Suzana Herculano-Houzel, “The Human Brain in Numbers: A Linearly Scaled-up Primate Brain,” Frontiers in Human Neuroscience 3 (2009), 31.

  13.   Mark E. Nelson and James M. Bower, “Brain Maps and Parallel Computers,” Trends in Neurosciences 13 (1990), 403–8.

  14.   Donald D. Clarke and Louis Sokoloff, “Circulation and Energy Metabolism of the Brain,” in George J. Siegel et al., eds., Basic Neurochemistry: Molecular, Cellular and Medical Aspects, 6th ed. (Philadelphia: Lippincott-Raven, 1999), 637–70.

  15.   Georg F. Striedter, Principles of Brain Evolution (Sunderland, Mass.: Sinauer Associates, 2005).

  16.   David Meunier, Renaud Lambiotte, and Edward T. Bullmore, “Modular and Hierarchically Modular Organization of Brain Networks,” Frontiers in Neuroscience 4 (2010), 200.

  17.   Ibid.

  18.   Dmitri B. Chklovskii, Thomas Schikorski, and Charles F. Stevens, “Wiring Optimization in Cortical Circuits,” Neuron 34 (2002), 341–47.

  19.   Danielle S. Bassett et al., “Dynamic Reconfiguration of Human Brain Networks during Learning,” Proceedings of the National Academy of Sciences (PNAS) 108 (2011), 7641–46; Danielle S. Bassett et al., “Robust Detection of Dynamic Community Structure in Networks,” Chaos: An Interdisciplinary Journal of Nonlinear Science 23 (2013), 013142.

  20.   Olaf Sporns and Richard F. Betzel, “Modular Brain Networks,” Annual Review of Psychology 67 (2016), 613–40.

  21.   Striedter, Principles of Brain Evolution, 248.

  22.   Beth L. Chen, David H. Hall, and Dmitri B. Chklovskii, “Wiring Optimization Can Relate Neuronal Structure and Function,” PNAS 103 (2006), 4723–28; Christopher Cherniak et al., “Global Optimization of Cerebral Cortex Layout,” PNAS 101 (2004), 1081–86; Yong-Yeol Ahn, Hawoong Jeong, and Beom Jun Kim, “Wiring Cost in the Organization of a Biological Neuronal Network,” Physica A: Statistical Mechanics and Its Applications 367 (2006), 531–37.

  23.   Jeff Clune, Jean-Baptiste Mouret, and Hod Lipson, “The Evolutionary Origins of Modularity,” Proceedings of the Royal Society of London B: Biological Sciences 280 (2013), 20122863.

  24.   Peter Carruthers, The Architecture of the Mind: Massive Modularity and the Flexibility of Thought (Oxford: Oxford University Press, 2006).

  25.   Sporns and Betzel, “Modular Brain Networks.”

  26.   Nicola Clayton and Nathan Emery, “Corvid Cognition,” Current Biology 15 (2005), R80–R81.

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  29.   Gavin R. Hunt, C. Lambert, and Russell D. Gray, “Cognitive Requirements for Tool Use by New Caledonian Crows (Corvus moneduloides),” New Zealand Journal of Zoology 34 (2007), 1–7.

  30.   Andrew Whiten et al., “Emulation, Imitation, Over-Imitation and the Scope of Culture for Child and Chimpanzee,” Philosophical Transactions of the Royal Society of London B: Biological Sciences 364 (2009), 2417–28.

  31.   Wolfgang Köhler, trans. Ella Winter, The Mentality of Apes (London: Kegan Paul, Trench, Trübner and Company, 1925).

  32.   Kristin Liebal et al., “Infants Use Shared Experience to Interpret Pointing Gestures,” Developmental Science 12 (2009), 264–71.

  33.   David Premack, “Why Humans Are Unique: Three Theories,” Perspectives on Psychological Science 5 (2010), 22–32.

  34.   Carruthers, Architecture of the Mind.

  35.   David Premack and Guy Woodruff, “Does the Chimpanzee Have a Theory of Mind?” Behavioral and Brain Sciences 1 (1978), 515–26.

  36.   Josep Call and Michael Tomasello, “Does the Chimpanzee Have a Theory of Mind? 30 Years Later,” Trends in Cognitive Sciences 12 (2008), 187–92.

  37.   Zijing He, Matthias Bolz, and Renée Baillargeon, “Understanding of False Belief in 2.5-year-olds in a Violation-of-Expectation Test,” paper presented at the Biennial Meeting of the Society for Research in Child Development, Boston, March 2007.

  38.   Christopher Krupenye et al., “Great Apes Anticipate That Other Individuals Will Act According to False Beliefs,” Science 354 (2016), 110–14.

  39.   John W. Pilley and Alliston K. Reid, “Border Collie Comprehends Object Names as Verbal Referents,” Behavioural Processes 86 (2011), 184–95; John W. Pilley, “Border Collie Comprehends Sentences Containing a Prepositional Object, Verb, and Direct Object,” Learning and Motivation 44 (2013), 229–40.

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  43.   Muhammad A. Spocter et al., “Neuropil Distribution in the Cerebral Cortex Differs between Humans and Chimpanzees,Journal of Comparative Neurology 520 (2012), 2917–29.

  44.   Julia Mehlhorn et al., “Tool-Making New Caledonian Crows Have Large Associative Brain Areas,” Brain, Behavior and Evolution 75 (2010), 63–70.

  45.   Justin S. Feinstein et al., “The Human Amygdala and the Induction and Experience of Fear,” Current Biology 21 (2011), 34–38.