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20. L. Tian, J. Wang, C. Yan, and Y. He, «Hemisphere and Gender Related Differences in Small-World Brain Networks: A Resting-State Functional MRI Study», NeuroImage 54 (2011): 191–202; Y. Iturria-Medina, A. Perez Fernandez, D. M. Morris, E. J. Canales-Rodriguez, H. A. Haroon, L. Garcia Penton, M. Augath, L. Galan Garcia, N. Logothetis, G. J. Parker, and L. Melie-Garcia, «Brain Hemispheric Structural Efficiency and Interconnectivity Rightward Asymmetry in Human and Nonhuman Primates», Cerebral Cortex 21 (2011): 56–67; J. Semmes, «Hemispheric Specialization: A Possible Clue to Mechanism», Neuropsychologia 6 (1968): 11–26; M. Daianu, N. Jahanshad, E. L. Dennis, A. W. Toga, K. L. McMahon, G. I. De Zubicaray, N. G. Martin, M. J. Wright, I. B. Hickie, and P. M. Thompson, «Left Versus Right Hemisphere Differences in Brain Connectivity: 4-Tesla HARDI Tractography in 569 Twins», Proceedings of the IEEE International Symposium on Biomedical Imaging 9 (2012): 526–529.
21. C. D. Good, I. S. Johnsrude, J. Ashburner, R. N. Henson, K. J. Friston, and R. S. Frackowiak, «A Voxel-based Morphometric Study of Ageing in 465 Normal Adult Human Brains», Neuroimage 14 (2001): 21–36; J. Pujol, A. Lopez-Sala, J. Deus, N. Cardoner, N. Sebastian-Galles, G. Conesa, and A. Capdevilla, «The Lateral Asymmetry of the Human Brain Studied by Volumetric Magnetic Resonance Imaging», Neuroimage 17 (2002): 670–679; R. C. Gur, I. K. Packer, J. P. Hungerbuhler, M. Reivich, W. D. Obrist, W. S. Amarnek, and H. A. Sackeim, «Differences in the Distribution of Gray and White Matter in Human Cerebral Hemispheres», Science 207 (1980): 1226–1228.
22. H. Poincaré, «The Mathematical Creation.» In The Creative Process: Reflections on Inventions in the Arts and Sciences, Ed. B. Chiselin (Oxnard, CA: Transformational Book Circle, 1986).
23. B. Ghiselin, The Creative Process: Reflections on the Invention in the Arts and Sciences, 1st edn. (Oakland, CA: University of California Press, 1985).
24. N. Marupaka and A. A. Minai, «Connectivity and Creativity in Semantic Neural Networks.» Neural Networks (IJCNN) (International Joint Conference on Neural Networks, July 31— August 5, 2011).
25. J. Hadamard, The Mathematician’s Mind: The Psychology of Invention in the Mathematical Field (Princeton, NJ: Princeton University Press, 1945): 142–143.
26. B. Ghiselin, The Creative Process: Reflections on the Invention in the Arts and Sciences, 1st edn. (Oakland, CA: University of California Press, 1985), 60.
27. A. Luria, Higher Cortical Functions in Man, 2nd edn. (New York: Springer, 1980); A. Luria, The Working Brain: An Introduction to Neuropsychology (New York: Basic Books, 1976); J. M. Fuster, The Neuroscience of Freedom and Creativity: Our Predictive Brain (Cambridge, UK: Cambridge University Press, 2013): 176.
Глава 8. Креативен ли бабуин?
1. F. De Waal, Are We Smart Enough to Know How Smart Animals Are? 1st edn. (New York: W. W. Norton & Company, 2016).
2. J. Grainger, S. Dufau, M. Montant, J. C. Ziegler, and J. Fagot, «Orthographic Processing in Baboons (Papio Papio)», Science 336 (2012): 245–248.
3. J. Fagot and J. Vauclair, «Video-Task Assessment of Stimulus Novelty Effects on Hemispheric Lateralization in Baboons (Papio Papio)», Journal of Comparative Psychology 108 (1994): 156–163; J. Grainger, S. Dufau, M. Montant, J. C. Ziegler, and J. Fagot, «Orthographic Processing in Baboons (Papio Papio)», Science 336 (2012): 245–248.
4. P. F. MacNeilage, L. J. Rogers, and G. Vallortigara, «Origins of the Left and Right Brain», Scientific American 301 (2009): 60–67.
5. S. Klur, C. Muller, A. Pereira de Vasconcelos, T. Ballard, J. Lopez, R. Galani, U. Certa, and J. C. Cassel, «Hippocampal-dependent Spatial Memory Functions Might Be Lateralized in Rats: An Approach Combining Gene Expression Profiling and Reversible Inactivation», Hippocampus 19 (2009): 800–816.
6. K. W. Pryor, R. Haag, and J. O’Reilly, «The Creative Porpoise: Training for Novel Behavior», Journal of the Experimental Analysis of Behavior 12 (1969): 653–661.
7. K. W. Pryor, R. Haag, and J. O’Reilly, «The Creative Porpoise: Training for Novel Behavior», Journal of the Experimental Analysis of Behavior 12 (1969): 661.
8. A. Kilian, L. Von Fersen, and O. Güntürkün, «Left Hemispheric Advantage for Numerical Abilities in the Bottlenose Dolphin», Behavioral Processes 68 (2005): 179–184.
9. M. Sakai, T. Hishii, S. Takeda, and S. Koshima, «Laterality of Flipper Rubbing Behaviour in Wild Bottlenose Dolphins (Tursiops Aduncus): Caused by Asymmetry of Eye Use?» Behavioural Brain Research 170 (2006): 204–210.
10. C. Blois-Heulin, M. Crével, M. Böye, and A. Lemasson, «Visual Laterality in Dolphins: Importance of the Familiarity of Stimuli», BMC Neuroscience 13 (2012): 9; M. Siniscalchi, S. Dimatteo, A. M. Pepe, R. Sasso, and A. Quaranta, «Visual Lateralization in Wild Striped Dolphins (Stenella Coeruleoalba) in Response to Stimuli with Different Degrees of Familiarity», PLoS One 7 (2012): E30001.
11. J. Ackerman, The Genius of Birds (New York: Penguin Press, 2016).
12. M. O’Hara, A. M. Auersperg, T. Bugnyar, and L. Huber, «Inference by Exclusion in Goffin Cockatoos (Cacatua Goffini)», PLoS One 10 (2015): E0134894; A. M. Auersperg, N. Oswald, M. Domanegg, G. K. Gajdon, and T. Bugnyar, «Unrewarded Object Combinations in Captive Parrots», Animal Behavior and Cognition 1 (2014): 470–488; A. M. Auersperg, A. Kacelnik, and A. M. Von Bayern, «Explorative Learning and Functional Inferences on a Five-step Means-Means-End Problem in Goffin’s Cockatoos (Cacatua Goffini)», PLoS One 8 (2013): E68979.
13. E. D. Jarvis, O. Güntürkün, L. Bruce, A. Csillag, H. Karten, W. Kuenzel, L. Medina, G. Paxinos, D. J. Perkel, T. Shimizu, G. Striedter, J. M. Wild, G. F. Ball, J. Dugas-Ford, S. E. Durand, G. E. Hough, S. Husband, L. Kubikova, D. W. Lee, C. V. Mello, A. Powers, C. Siang, T. V. Smulders, K. Wada, S. A. White, K. Yamamoto, J. Yu, A. Reiner, A. B. Butler, and The Avian Brain Nomenclature Consortium, «Avian Brains and a New Understanding of Vertebrate Brain Evolution», Nature Reviews Neuroscience 6 (2005): 151–159.
14. M. Magat and C. Brown, «Laterality Enhances Cognition in Australian Parrots», Proceedings in Biological Sciences 276 (2009): 4155–4162; J. N. Daisley, G. Vallortigara, and L. Regolin, «Logic in an Asymmetrical (Social) Brain: Transitive Inference in the Young Domestic Chick», Society of Neuroscience 5 (2010): 309–319.
15. J. Verhaal, J. A. Kirsch, I. Vlachos, M. Manns, and O. Güntürkün, «Lateralized Reward-Related Visual Discrimination in the Avian Entopallium», European Journal of Neuroscience 35 (2012): 1337–1343.
16. B. A. Bell, M. L. Phan, and D. S. Vicario, «Neural Responses in Songbird Forebrain Reflect Learning Rates, Acquired Salience and Stimulus Novelty After Auditory Discrimination Training», Journal of Neurophysiology 113 (2015): 1480–1492.