Выживает самый дружелюбный. Почему женщины выбирают добродушных мужчин, молодежь избегает агрессии и другие парадоксы, которые помогут узнать себя лучше. Ванесса Вудс
via selection for prosociality. Annual review of psychology 68, 155–186 (2017).
10
R. Kurzban, M. N. Burton-Chellew, S. A. West, The evolution of altruism in humans. Annual review of psychology 66, 575–599 (2015).
11
F. B. De Waal, F. de Waal, Peacemaking among primates. (Harvard University Press, 1989).
12
R. M. Sapolsky, The influence of social hierarchy on primate health. Science 308, 648–652 (2005).
13
N. Snyder-Mackler, J. Sanz, J. N. Kohn, J. F. Brinkworth, S. Morrow, A. O. Shaver, J.-C. Grenier, R. Pique-Regi, Z. P. Johnson, M. E. Wilson, Social status alters immune regulation and response to infection in macaques. Science 354, 1041–1045 (2016).
14
C. Drews, Contexts and patterns of injuries in free-ranging male baboons (Papio cynocephalus). Behaviour 133, 443–474 (1996).
15
M. L. Wilson, C. Boesch, B. Fruth, T. Furuichi, I. C. Gilby, C. Hashimoto, C. L. Hobaiter, G. Hohmann, N. Itoh, K. J. N. Koops, Lethal aggression in Pan is better explained by adaptive strategies than human impacts. 513, 414 (2014).
16
Гоббс T. Левиафан. – Москва: АСТ, 2021.
17
F. De Waal, F. B. Waal, Chimpanzee politics: Power and sex among apes. (JHU Press, 2007).
18
L. R. Gesquiere, N. H. Learn, M. C. M. Simao, P. O. Onyango, S. C. Alberts, J. Altmann, Life at the top: rank and stress in wild male baboons. Science 333, 357–360 (2011).
19
B. Hare, Survival of the friendliest: Homo sapiens evolved via selection for prosociality. Annual review of psychology 68, 155–186 (2017).
20
M. W. Gray, Mitochondrial evolution. Cold Spring Harbor Perspectives in Biology 4, a011403 (2012); published online EpubSep 1 (10.1101/cshperspect.a011403).
21
L. A. David, C. F. Maurice, R. N. Carmody, D. B. Gootenberg, J. E. Button, B. E. Wolfe, A. V. Ling, A. S. Devlin, Y. Varma, M. A. Fischbach, S. B. Biddinger, R. J. Dutton, P. J. Turnbaugh, Diet rapidly and reproducibly alters the human gut microbiome. Nature 505, 559–563 (2014); published online EpubJan 23 (10.1038/nature12820).
22
S. Hu, D. L. Dilcher, D. M. Jarzen, Early steps of angiosperm-pollinator coevolution. Proceedings of the National Academy of Sciences 105, 240–245 (2008).
23
B. Holldobler, E. O. Wilson, The superorganism: the beauty, elegance, and strangeness of insect societies. (WW Norton & Company, 2009).
24
Хотя Брайан и Ванесса – равноправные авторы этой книги, основной фокус внимания получило исследование Брайана, поэтому под «я» будет иметься в виду именно он.
25
B. Wood, E. K. Boyle, Hominin taxic diversity: Fact or fantasy? American journal of physical anthropology 159, 37–78 (2016).
26
A. Powell, S. Shennan, M. G. Thomas, Late Pleistocene demography and the appearance of modern human behavior. Science 324, 1298–1301 (2009).
27
S. E. Churchill, Thin on the ground: Neandertal biology, archeology and ecology. (John Wiley & Sons, 2014), vol. 10.
28
A. S. Brooks, J. E. Yellen, R. Potts, A. K. Behrensmeyer, A. L. Deino, D. E. Leslie, S. H. Ambrose, J. R. Ferguson, F. d’Errico, A. M. J. S. Zipkin, Long-distance stone transport and pigment use in the earliest Middle Stone Age. 360, 90–94 (2018).
29
N. T. Boaz, Dragon Bone Hill: an Ice-Age saga of Homo erectus. R. L. Ciochon, Ed. (Oxford University Press, Oxford; New York, 2004).
30
C. Shipton, M. D. Petraglia, in Asian Paleoanthropology. (Springer, 2011), pp. 49–55.
31
W. Amos, J. I. Hoffman, Evidence that two main bottleneck events shaped modern human genetic diversity. Proceedings of the Royal Society B: Biological Sciences (2009).
32
A. Manica, W. Amos, F. Balloux, T. Hanihara, The effect of ancient population bottlenecks on human phenotypic variation. Nature 448, 346–348 (2007).
33
S. H. Ambrose, Late Pleistocene human population bottlenecks, volcanic winter, and differentiation of modern humans. Journal of Human Evolution 34, 623–651 (1998); published online Epub1998/06/01.
34
S. E. Churchill, Thin on the ground: Neandertal biology, archeology and ecology. (John Wiley & Sons, 2014), vol. 10.
35
J. Krause, C. Lalueza-Fox, L. Orlando, W. Enard, R. E. Green, H. A. Burbano, J.-J. Hublin, C. Hanni, J. Fortea, M. De La Rasilla, The derived FOXP2 variant of modern humans was shared with Neandertals. Current biology 17, 1908–1912 (2007).
36
F. Schrenk, S. Muller, C. Hemm, P. G. Jestice, The neanderthals. (Routledge, 2009).
37
S. E. Churchill, Thin on the ground: Neandertal biology, archeology and ecology. (John Wiley & Sons, 2014), vol. 10.
38
S. E. Churchill, J. A. Rhodes, in The Evolution of Hominin Diets. (Springer, 2009), pp. 201–210.
39
B. Davies, S. H. Bickler, A. Traviglia, in Across Space and Time: Papers from the 41st Conference on Computer Applications and Quantitative Methods in Archaeology, Perth, 25–28 March 2013. (Amsterdam: Amsterdam University Press, 2015), pp. 215–223.
40
B. Davies, S. H. Bickler, A. Traviglia, in Across Space and Time: Papers from the 41st Conference on Computer Applications and Quantitative Methods in Archaeology, Perth, 25–28 March 2013. (Amsterdam: Amsterdam University Press, 2015), pp. 215–223.
41
O. Soffer, Recovering perishable technologies through use wear on tools: preliminary evidence for Upper Paleolithic weaving and net making. Current Anthropology 45, 407–413 (2004).
42
J. F. Hoffecker, Innovation and technological knowledge in the Upper Paleolithic of northern Eurasia. Evolutionary