Hostname: page-component-77c89778f8-5wvtr Total loading time: 0 Render date: 2024-07-19T08:44:58.592Z Has data issue: false hasContentIssue false
  • English
  • Français

First come, first served? Birth order effects on child height in South Africa

Published online by Cambridge University Press:  11 March 2019

Rajan Bishwakarma  and
Kira M. Villa
Rajan Bishwakarma*
Affiliation:
Department of Economics, University of New Mexico, 1915 Roma Ave. NE 1019, Albuquerque, NM 87106, USA
Kira M. Villa
Affiliation:
Department of Economics, University of New Mexico, 1915 Roma Ave. NE 1019, Albuquerque, NM 87106, USA
*
*Corresponding author. E-mail: rbishwakarma@unm.edu
Get access

Abstract

We examine the birth order effects on health status for a sample of children aged 1–18 years in South Africa. Using a mother fixed-effects specification, we observe children's height-for-age z-score decreases with birth order. We investigate potential mechanisms underlying the birth order effect including those related to biology, parental preferences, and resource dilution. We also look at whether these effects are due to selection into families of different sizes. We find that the magnitude of the effect is larger in poorer and rural households and in larger families – suggesting that the birth order effect is largely due to resource dilution in economically constrained households.

Keywords

Birth orderchild healthdeveloping countryresource dilutionSouth Africa

JEL classification

O15: Human Resources • Human Development • Income Distribution • Migration I12: Health Behavior J13: Fertility • Family Planning • Child Care • Children • Youth
Type
Research Papers
Information
Journal of Demographic Economics , Volume 85 , Issue 1 , March 2019 , pp. 71 - 94
Copyright
Copyright © Université catholique de Louvain 2019 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Argys, L. M., Rees, D. I., Averett, S. L. and Witoonchart, B. (2006) Birth order and risky adolescent behavior. Economic Inquiry 44(2), 215233.Google Scholar
Ayyavoo, A., Savage, T., Derraik, J. G. B., Hofman, P. L. and Cutfield, W. S. (2013) First-born children have reduced insulin sensitivity and higher daytime blood pressure compared to later-born children. The Journal of Clinical Endocrinology & Metabolism 98(3), 12481253.Google Scholar
Barclay, K. and Kolk, M. (2015) Birth order and mortality: a population-based cohort study. Demography 52(2), 613639.Google Scholar
Basu, D. and De Jong, R. (2010) Son targeting fertility behavior: some consequences and determinants. Demography 47(2), 521536.Google Scholar
Becker, G. (1991) A Treatise on the Family. Cambridge, MA: Harvard University Press.Google Scholar
Behrman, J. R. (1988) Nutrition, health, birth order and seasonality. Journal of Development Economics 28(1), 4362.Google Scholar
Black, S. E., Devereux, P. J. and Salvanes, K. G. (2005) The more the merrier? The effect of family size and birth order on children's education. The Quarterly Journal of Economics 120(2), 669700.Google Scholar
Black, S.E., Devereux, P.J. and Salvanes, K.G. (2016) Healthy(?), wealthy, and wise: birth order and adult health. Economics & Human Biology 23, 2745.Google Scholar
Booth, A. L. and Kee, H. J. (2009) Birth order matters: the effect of family size and birth order on educational attainment. Journal of Population Economics 22(2), 367397.Google Scholar
Bozzoli, C., Deaton, A. S. and Quintana-Domeque, C. (2007) Child Mortality, Income and Adult Height (Working Paper No. 12966). National Bureau of Economic Research. Retrieved from http://www.nber.org/papers/w12966Google Scholar
Branson, Nicola, Ardington, Cally and Leibbrandt, Murray (2013) Trends in teenage childbearing and schooling outcomes for children born to teens in South Africa, No 098, SALDRU Working Papers, Southern Africa Labour and Development Research Unit, University of Cape Town.Google Scholar
Brenøe, A. A. and Molitor, R. (2015) Birth Order and Health of Newborns: What Can We Learn from Danish Registry Data? (SSRN Scholarly Paper No. ID 2665093). Rochester, NY: Social Science Research Network. Retrieved from https://papers.ssrn.com/abstract=2665093Google Scholar
Buckles, K. and Kolka, S. (2014) Prenatal investments, breastfeeding, and birth order. Social Science & Medicine 118, 6670.Google Scholar
Cleary-Goldman, J., Malone, F. D., Vidaver, J., Ball, R. H., Nyberg, D. A. and Comstock, C. H., … FASTER Consortium. (2005) Impact of maternal age on obstetric outcome. Obstetrics and Gynecology 105(5 Pt 1), 983990.Google Scholar
Cullinan, P. (2006) Childhood allergies, birth order and family size. Thorax 61(1), 35.Google Scholar
De Haan, M. (2010) Birth order, family size and educational attainment. Economics of Education Review 29(4), 576588.Google Scholar
De Haan, M. D., Plug, E. and Rosero, J. (2014) Birth order and human capital development evidence from Ecuador. Journal of Human Resources 49(2), 359392.Google Scholar
Ejrnæs, M. and Pörtner, C. C. (2004) Birth order and the intrahousehold allocation of time and education. Review of Economics and Statistics 86(4), 10081019.Google Scholar
Elliott, B. A. (1992) Birth order and health: major issues. Social Science & Medicine 35(4), 443452.Google Scholar
Evans, R. (2010) Children's caring roles and responsibilities with the family in Africa. Geography Compass 4(10), 14771496.Google Scholar
Hatton, T. J. and Martin, R. M. (2010) The effects on stature of poverty, family size, and birth order: British children in the 1930s. Oxford Economic Papers 62(1), 157184.Google Scholar
Horton, S. (1988) Birth order and child nutritional status: evidence from the Philippines. Economic Development and Cultural Change 36(2), 341354.Google Scholar
Hotz, V. J. and Pantano, J. (2015) Strategic parenting, birth order, and school performance. Journal of Population Economics 28(4), 911936.Google Scholar
Jayachandran, Seema and Pande, Rohini (2017) Why are Indian children so short? The role of birth order and son preference. American Economic Review 107(9), 26002629.Google Scholar
Jelenkovic, A., Silventoinen, K., Tynelius, P., Myrskylä, M. and Rasmussen, F. (2013) Association of birth order with cardiovascular disease risk factors in young adulthood: a study of one million Swedish men. PLoS ONE 8(5), e63361.Google Scholar
Kantarevic, J. and Mechoulan, S. (2006) Birth order, educational attainment, and earnings an investigation using the PSID. Journal of Human Resources XLI(4), 755777.Google Scholar
Kebede, B. (2005) Genetic endowments, parental and child health in rural Ethiopia. Scottish Journal of Political Economy 52(2), 194221.Google Scholar
Khong, T. Y., Adema, E. D. and Erwich, J. J. H. M. (2003) On an anatomical basis for the increase in birth weight in second and subsequent born children. Placenta 24(4), 348353.Google Scholar
Lehmann, J.-Y. K., Nuevo-Chiquero, A. and Vidal-Fernandez, M. (2016) The early origins of birth order differences in children's outcomes and parental behavior. Journal of Human Resources 53(1), 123156.Google Scholar
Marteleto, L. J. and de Souza, L. R. (2012) The changing impact of family size on adolescents’ schooling: assessing the exogenous variation in fertility using twins in Brazil. Demography 49(4), 14531477.Google Scholar
Meller, F. de O., Assunção, M. C. F., Schäfer, A. A., Mola, C. L. de, Barros, A. J. D., Dahly, D. L. and Barros, F. C. (2015) The influence of birth order and number of siblings on adolescent body composition: evidence from a Brazilian birth cohort study. British Journal of Nutrition 114(1), 118125.Google Scholar
Modin, B. (2002) Birth order and mortality: a life-long follow-up of 14,200 boys and girls born in early 20th century Sweden. Social Science & Medicine 54(7), 10511064.Google Scholar
Myrskylä, M., Silventoinen, K., Jelenkovic, A., Tynelius, P. and Rasmussen, F. (2013) The association between height and birth order: evidence from 652 518 Swedish men. Journal of Epidemiology and Community Health 67, 571577.Google Scholar
Paciorek, C. J., Stevens, G. A., Finucane, M. M. and Ezzati, M. (2013) Children's height and weight in rural and urban populations in low-income and middle-income countries: a systematic analysis of population-representative data. The Lancet Global Health 1(5), e300e309.Google Scholar
Price, J. (2008) Parent-child quality time does birth order matter? Journal of Human Resources 43(1), 240265.Google Scholar
Rossi, P. and Rouanet, L. (2015) Gender preferences in Africa: a comparative analysis of fertility choices. World Development, 72, 326345.Google Scholar
Savage, T., Derraik, J. G. B., Miles, H. L., Mouat, F., Cutfield, W. S. and Hofman, P. L. (2013) Birth order progressively affects childhood height. Clinical Endocrinology 79(3), 379385.Google Scholar
Stradford, L., van Poppel, F. and Lumey, L. H. (2017) Can resource dilution explain differences in height by birth order and family size? A study of 389,287 male recruits in twentieth-century Netherlands. The History of the Family 22(2–3), 214235.Google Scholar
Strauss, J. and Thomas, D. (2008) Health over the life course. In Shultz, TP and Strauss, J (eds), Handbook of Development Economics, vol. 4. 33753474, Amsterdam: North-Holland.Google Scholar
Victora, C. G., Adair, L., Fall, C., Hallal, P. C., Martorell, R., Richter, L. and Sachdev, S. S. (2008) Maternal and child undernutrition: consequences for adult health and human capital. The Lancet 371(9609), 340357.Google Scholar
Vogle, T. S. (2014) Height, skills, and labor market outcomes in Mexico. Journal of Development Economics 107, 8496.Google Scholar
World Health Organization (1995) Physical Status: The Use and Interpretation of Anthropometry. WHO Technical Report Series No. 854, Geneva: World Health Organization.Google Scholar