바로가기메뉴

본문 바로가기 주메뉴 바로가기

ACOMS+ 및 학술지 리포지터리 설명회

  • 한국과학기술정보연구원(KISTI) 서울분원 대회의실(별관 3층)
  • 2024년 07월 03일(수) 13:30
 

logo

현대 사회의 저출산에 대한 진화적 분석

Evolutionary Approaches to Low Fertility in Modern Societies

한국심리학회지 : 문화 및 사회문제 / Korean Psychological Journal of Culture and Social Issues, (P)1229-0661; (E)1229-0661
2012, v.18 no.1, pp.97-110
전중환 (경희대학교)

초록

19세기부터 현재까지 산업화된 국가들을 중심으로 출산율이 급락하고 있는 전세계적인 현상은 진화적인 관점에서 선뜻 이해하기 어렵다. 왜 자원이 더 풍부해진 현대에 들어서 사람들은 자식수를 자발적으로 줄이는가? 본 논문은 현대의 저출산 현상을 설명하는 다양한 진화적 접근들을 요약하고, 이를 토대로 우리 사회의 저출산 문제를 해결할 실마리를 얻고자 한다. 1) 현대의 극히 낮은 출산율은 수렵-채집 생활에 맞추어진 우리의 심리적 적응이 진화적으로 낯선 환경과 불협화음을 일으킴에 따른 부적응적인 부산물이라는 가설, 2) 사회적으로 성공한 사람들이 자녀를 적게 낳는 행동이 전파되거나, 가족 중심의 네트워크가 붕괴하여 출산의 중요성이 덜 강조됨에 따라 저출산이 야기되었다는 유전자-문화 공진화 가설, 그리고 3) 부모가 자녀에게 투자하는 양이 대단히 많이 요구되는 현대의 환경에서 극심한 저출산은 부모의 장기적인 적합도를 최대화하는 적응적인 형질이라는 가설을 차례대로 검토한다. 저출산에 대한 진화적 관점은 저소득층의 출산을 지원하는 정책보다는 모든 사회경제적 계층에서 자녀를 장차 경쟁력 있는 성인으로 키우기 위한 비용을 줄이는 정책을 추진하는 것이 더 효과적임을 시사한다.

keywords
low fertility, evolution, adaptation, gene-culture coevolution, fitness, 저출산, 진화, 적응, 유전자-문화 공진화, 적합도

Abstract

The sharp decline of fertility in industrialized countries since the 19th century constitutes a major problem for evolutionary approaches to human behavior. Why would people voluntarily reduce their total number of offspring, despite the fact that resources are so abundant in modern times? Here I review three evolutionary hypotheses for low fertility in modern societies, and discuss how the evolutionary perspective could shed new light on solving the problem of low fertility in Korea. Low fertility may be 1) a maladaptive outcome from the mismatch between our ancestral environments and evolutionarily novel environments, 2) a consequence of gene-culture coevolution where traits that reduce genetic fitness can still spread through a population as a result of imitation, especially if the traits are expressed by high-status people, or 3) an adaptation that maximize parents' long-term genetic fitness in knowledge- based industrialized societies where high parental investment is required for rearing competitive offspring. Based on these considerations, I suggest how the evolutionary explanations of low fertility can be applied to increasing the birth rate in Korea.

keywords
low fertility, evolution, adaptation, gene-culture coevolution, fitness, 저출산, 진화, 적응, 유전자-문화 공진화, 적합도

참고문헌

1.

Amin, S., Basu, A. M., & Stephenson, R. (2002). Spatial variation in contraceptive use in Bangladesh: Looking beyond the borders. Demography, 39, 251-267.

2.

Barkow, J. H., & Burley, N. (1980). Human fertility, evolutionary biology, and the demographic transition. Ethology and Sociobiology, 1, 163-180.

3.

Boone, J. L., & Kessler, K. L. (1999). More status or more children? Social status, fertility reduction, and long-term fitness. Evolution and Human Behavior, 20, 257-277.

4.

Borgerhoff Mulder, M. (1998). The demographic transition: are we any closer to an evolutionary explanation? Trends in Ecology and Evolution, 13, 266-270.

5.

Boyd, R., & Richerson, P. J. (1985). Culture and the evolutionary process. Chicago: University of Chicago Press.

6.

Boyd, R., & Richerson, P. J. (2005). The origin and evolution of cultures. Oxford: Oxford University Press.

7.

Caldwell, J., & Caldwell, P. (1998). Regional paths to fertility transition. Journal of Population Research, 18(2), 91-117.

8.

Cleland, J., & Wilson, C. (1987). Demand theories of the fertility transition: an iconoclastic view. Population Studies, 41, 5-30.

9.

Desai, S. (1995). When are children from large families disadvantaged? Evidence from cross- cultural analyses. American Sociological Review, 60, 746-761.

10.

Downey, D. B. (2001). Number of siblings and intellectual development: the resource dilution explanation. American Psychologist, 56, 497-504.

11.

Henrich, J., & McElreath, R. (2007). Dual- inheritance theory: the evolution of human cultural capacities and cultural evolution. In R. I. M. Dunbar & L. Barrett (Eds.), The Oxford handbook of evolutionary psychology (pp.555 -570). Oxford: Oxford University Press.

12.

Kaplan, H. (1996). A theory of fertility and parental investment in traditional and modern human societies. Yearbook of Physical Anthropology, 39, 91-135.

13.

Kaplan, H., Lancaster, J. B., Bock, J., & Johnson, S. (1995). Fertility and fitness among Albuquerque men: A competitive labour market theory. In R. I. M. Dunbar (Ed.), Human reproductive decisions: Biological and social perspectives (pp.96-136). London: Macmillan.

14.

Kaplan, H., Lancaster, J. B., Tucker, W. T., & Anderson, K. G. (2002). An evolutionary approach to below replacement fertility. American Journal of Human Biology, 14, 233- 256.

15.

Keister, L. A. (2003). Sharing the wealth: the effect of siblings on adults' wealth ownership. Demography, 40, 521-542.

16.

Lack, D. (1947). The significance of clutch size. Ibis, 89, 302-352.

17.

Lawson, D. W., & Mace, R. (2009). Trade-offs in modern parenting: a longitudinal study of sibling competition for parental care. Evolution and Human Behavior, 30, 170-183.

18.

Lawson, D. W., & Mace, R. (2010). Optimizing modern family size: Trade-offs between fertility and the economic costs of reproduction. Human Nature, 21, 39-61.

19.

Lee, S. S. (2006). Causes of low fertility and future policy options in Korea. Health and Welfare Forum, 1, 5-17.

20.

Mace, R. (1998). The coevolution of human wealth and inheritance strategies. Philosophical Transactions of the Royal Society of London, B: Biological Sciences, 353, 389-397.

21.

Mace, R. (2007). The evolutionary ecology of human family size. In R. I. M. Dunbar & L. Barrett (Eds.), The Oxford handbook of evolutionary psychology (pp.383-396). Oxford: Oxford University Press.

22.

Mace, R., Allal, N., Sear, R., & Prentice, A. M. (2006). The uptake of modern contraception in a Gambian community: the diffusion of an innovation over 25 years. In J. C. K. Wells, S. Strickland & K. Laland (Eds.), Social Information Transmission and Human Biology (pp.191-206). London: Taylor and Francis.

23.

McNamara, J. M., & Houston, A. I. (2006). State and value: a perspective from behavioural ecology. In J. C. K. Wells, S. Strickland & K. Laland (Eds.), Social Information Transmission and Human Biology (pp.59-88). London: Taylor and Francis.

24.

Metz, J. A. J., Nisbet, R. M., & Geritz, S. A. H. (1992). How should we define ‘fitness’ for general ecological scenarios? Trends in Ecology and Evolution, 7, 198-202.

25.

Newson, L., Postma, E., Lea, S. E. G., Webley, P., Richerson, P. J., & McElreath, R. (2007). Influences on communication about reproduction: the cultural evolution of low fertility. Evolution and Human Behavior, 23, 199-210.

26.

Newson, L., Postmes, T., Lea, S. E. G., & Webley, P. (2005). Why are modern families small? Toward an evolutionary and cultural explanation for the demographic transition. Personality and Social Psychology Review, 9, 360- 375.

27.

Perrusse, D. (1993). Cultural and reproductive success in industrial societies: Testing the relationship at the proximate and ultimate levels. Behavioral and Brain Sciences, 16, 267- 323.

28.

Quinlan, R. J. (2007). Human parental effort and environmental risk. Proceedings of the Royal Society of London, Series B, 247, 121-125.

29.

Roff, D. A. (1992). The Evolution of Life Histories. New York: Chapman & Hall.

30.

Rogers, A. R. (1990). Evolutionary economics of human reproduction. Ethology and Sociobiology, 11, 479-495.

31.

Rotkirch, A. (2007). All that she wants is another baby? Longing for children as a fertility incentive of growing importance. Journal of Evolutionary Psychology, 5, 89-104.

32.

Vining, D. R. (1986). Social versus reproductive success: The central theoretical problem of human sociobiology. Behavioral and Brain Sciences, 9, 167-216.

33.

Williams, G. C. (1966). Adaptation and natural selection. Princeton, NJ: Princeton University Press.

한국심리학회지 : 문화 및 사회문제