3. Subcommittee on Nutrition During Lactation, Committee on Nutritional Status During Pregnancy and Lactation, Food and Nutrition Board, Institute of Medicine, & National Academy of Sciences. (1991). Meeting maternal nutrient needs during lactation. Nutrition during lactation (pp. 213–235). Washington, D.C.: National Academies Press; Khan, S. L. (2004). Maternal nutrition during breastfeeding. New Beginnings, 21(2), 44–52.

4. Hill, K., & Hurtado, A.M. (1996). Aché life history: The ecology and demography of a foraging people. New York: Aldine de Gruyter.

5. Clark, R. D., & Hatfield, E. (1989). Gender differences in receptivity to sexual offers. Journal of Psychology and Human Sexuality, 2, 39–55.

6. Anderson, K. G. (2006). How well does paternity confidence match actual paternity? Current Anthropology, 47(3), 513–520. doi:10.1086/­504167.

7. Alvergne, A., Faurie, C., & Raymond, M. (2010). Are parents’ perceptions of offspring facial resemblance consistent with actual resemblance? Effects on parental investment. Evolution and Human Behavior, 31(1), 7–15.

8. Hill, S.E., Prokosch, M.L., & DelPriore, D.J. (2015). The impact of disease threat on women’s desire for novel partners: Is variety the best medicine? Journal of Personality and Social Psychology, 109(2), 244–261; DelPriore, D.J. & Hill, S.E. (2013). The effects of paternal disengagement on women’s sexual decision-making: An experimental approach. Journal of Personality and Social Psychology, 105, 234–246.

9. Silberg, J.L., Martin, N.G., & Heath, A.C. (1987). Genetic and environmental factors in primary dysmenorrhea and its relationship to anxiety, depression, and neuroticism. Behavior Genetics, 17(4), 363–383. doi:10.1007/­bf010­68137.

10. Evers, J.L. (2002). Female subfertility. The Lancet, 93(9327), 151–159. doi:10.1016/­s0140-6736­(02)­65865-9.

11. Gilbert, S.F. (2000). Developmental biology. Sunderland, MA: Sinauer Associates.

12. Gold, R.B. (2005). The implications of defining when a woman is pregnant. Guttmacher Report on Public Policy, 8(2), 7–10; Cramer, D.W., & Wise, L.A. (2000). The epidemiology of recurrent pregnancy loss. Seminars in Reproductive Medicine, 18(4), 331–340; Wong, C.C., Loewke, K.E., Bossert, N.L. et al. (2010). Non-invasive imaging of human embryos before embryonic genome activation predicts development to the blastocyst stage. Nature Biotechnology, 28(10), 1115–1121. doi:10.1038/­nbt.­1686; Schieve, L.A., Tatham, L., Peterson, H.B. et al. (2003). Spontaneous abortion among pregnancies conceived using assisted reproductive technology in the United States. Obstetrics and Gynecology, 101(5, part 1), 959–967. doi:10.1016/­S0029-7844­(03)­00121-2.

Глава 2

13. Lee, J.S., & Bass, A.H. (2006). Dimorphic male midshipman fish: Reduced sexual selection or sexual selection for reduced characters? Behavioral Ecology, 17(4), 670–675.

14. Schlinger, B.A., Greco, C., & Bass, A.H. (1999). Aromatase activity in hindbrain vocal control region of a teleost fish: Divergence among males with alternative reproductive tactics. Proceedings of the Royal Society of London B: Biological Sciences, 266(1415), 131–136.

15. Lovick, T. (2012). Estrous cycle and stress: Influence of progesterone on the female brain. Brazilian Journal of Medical and Biological Research, 45(4), 314–320. doi:10.1590/­s0100-879x­2012­007­500­044; Silva, A.F., Sousa, D.S., Medeiros, A.M., et al. (2016). Sex and estrous cycle influence diazepam effects on anxiety and memory: Possible role of progesterone. Progress in Neuro-Psychopharmacology and Biological Psychiatry, 70, 68–76. doi:10.1016/­j.­pnpbp.­2016.­05.­003; Li, S. H., & Graham, B.M. (2017). Why are women so vulnerable to anxiety, trauma-related and stress-related disorders? The potential role of sex hormones. The Lancet Psychiatry, 4(1), 73–82. doi:10.1016/­s2215-0366­(16)­30358-3.

16. Выдержки из интервью напечатаны с любезного разрешения еженедельной документальной радиопередачи This American Life и взяты из эпизода 220 под названием Testosterone. Взято на https://www.this­american­life.org/­220/­testosterone.

17. Klinesmith, J., Kasser, T., & McAndrew, F.T. (2006). Guns, testosterone, and aggression. Psychological Science, 17(7), 568–571. doi:10.1111/j.­1467-9280.­2006.­01745.x.

18. Raeburn, P. (2015). Do fathers matter? What science is telling us about the parent we’ve overlooked. New York: Scientific American/Farrar, Straus and Giroux; Alonso, D.L., & Ortiz-Rodríguez, I.M. (2017). Offspring mortality was a determinant factor in the evolution of paternal investment in humans: An evolutionary game approach. Journal of Theoretical Biology, 419, 44–51. doi:10.1016/­j.­jtbi.­2017.­01.­043.

19. Isidori, A.M., Giannetta, E., Gianfrilli, D. et al. (2005). Effects of testosterone on sexual function in men: Results of a meta-analysis. Clinical Endocrinology, 63, 381–394; Peters, M., Simmons, L.W., & Rhodes, G. (2008). Testosterone is associated with mating success but not attractiveness or masculinity in human males. Animal Behaviour, 76(2), 297–303. doi:10.1016/­j.anbehav.­2008.­02.­008.

20. Burnham, T.C., Chapman, J.F., Gray, P.B. et al. (2003). Men in committed, romantic relationships have lower testosterone. Hormones and Behavior, 44(2), 119–122. doi:10.1016/­s0018-506x­(03)­00125-9.

21. Gettler, L.T., McDade, T.W., Feranil, A.B., & Kuzawa, C.W. (2011). Longitudinal evidence that fatherhood decreases testosterone in human males. PNAS, 108(39), 16194–16199. doi:10.1073/­pnas.­11054­03108.

Глава 3

22. Adams, D.B., Gold, A.R., & Burt, A.D. (1978). Rise in female-initiated sexual activity at ovulation and its suppression by oral contraceptives. New England Journal of Medicine, 299(21), 1145–1150. doi:10.1056/­nejm­1978­112­32­99­2101; Bullivant, S.B., Sellergren, S.A., Stern, K. et al. (2004). Women’s sexual experience during the menstrual cycle: Identification of the sexual phase by noninvasive measurement of luteinizing hormone. Journal of Sex Research, 41(1), 82–93. doi:10.1080/­0022­4490­409­552­216; Dennerstein, L., Gotts, G., Brown, J.B. et al. (1994). The relationship between the menstrual cycle and female sexual interest in women with PMS complaints and volunteers. Psychoneuroendocrinology, 19(3), 293–304. doi:10.1016/­0306-4530­(94)­90067-1; Diamond, L.M., & Wallen, K. (2010). Sexual minority women’s sexual motivation around the time of ovulation. Archives of Sexual Behavior, 40(2), 237–246. doi:10.1007/­s10508-010-9631-2; Matteo, S., & Rissman, E.F. (1984). Increased sexual activity during the midcycle portion of the human menstrual cycle. Hormones and Behavior, 18(3), 249–255. doi:10.1016/­0018-506x­(84)­90014-x; Pillsworth, E.G., Haselton, M.G., & Buss, D.M. (2004). Ovulatory shifts in female sexual desire. Journal of Sex Research, 41(1), 55–65. doi:10.1080/­0022­4490­409­552­213; Stanislaw, H., & Rice, F.J. (1988). Correlation between sexual desire and menstrual cycle characteristics. Archives of Sexual Behavior, 17(6), 499–508. doi:10.1007/­bf01­542­338; Wallen, K. (2001). Sex and context: Hormones and primate sexual motivation. Hormones and Behavior, 40(2), 339–357. doi:10.1006/­hbeh.­2001.­1696; Wilcox, A., Baird, D.D., Dunson, D.B. et al. (2004). On the frequency of intercourse around ovulation: Evidence for biological influences. Human Reproduction, 19(7), 1539–1543. doi:10.1093/­humrep­/deh305; Regan, P.C. (1996). Rhythms of desire: The association between menstrual cycle phases and female sexual desire. Canadian Journal of Human Sexuality, 5, 145–156; Schreiner-Engel, P., Schiavi, R.C., Smith, H., & White, D. (1981). Sexual arousability and the menstrual cycle. Psychosomatic Medicine, 43(3), 199–214.