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HEALTH, HUMAN CAPITAL FORMATION AND KNOWLEDGE PRODUCTION: TWO CENTURIES OF INTERNATIONAL EVIDENCE

Published online by Cambridge University Press:  21 January 2016

Jakob B. Madsen*
Affiliation:
Monash University
*
Address correspondence to: Jakob B. Madsen, Department of Economics, Monash University, 900 Dandenong Rd., Caulfield East, Victoria 3145, Australia; e-mail: [email protected].

Abstract

Recent medical research shows that health is highly influential on learning and the ability to think laterally; however, past economic studies have failed to empirically examine the influence of health on learning, schooling, and ideas production, the main drivers of growth in endogenous growth models. This paper constructs a measure of health-adjusted educational attainment among the working age population based on their health status during the time they obtained their education. Using annual data for 21 OECD countries over the past two centuries, it is shown that health has been highly influential on the quantity and quality of schooling, innovation, and growth.

Type
Articles
Copyright
Copyright © Cambridge University Press 2016 

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References

REFERENCES

Abazi, Helen (2006) Efficient Learning for the Poor, Insights from the Frontier of Cognitive Neuroscience. Washington, DC: The World Bank.Google Scholar
Acemoglu, Daron and Johnson, Simon (2007) Disease and development: The effect of life expectancy on economic growth. Journal of Political Economy 115 (6), 925985.Google Scholar
Aghion, Phillipe and Howitt, Peter (1998) Endogenous Growth. Cambridge, MA: MIT Press.Google Scholar
Aghion, Phillipe and Howitt, Peter (2006) Appropriate growth policy: A unifying framework. Joseph Schumpeter Lecture, in Journal of the European Economic Association 4 (2–3), 269314.Google Scholar
Aghion, Phillipe, Howitt, Peter, and Murtin, Fabrice (2011) The relationship between health and growth: When Lucas meets Nelson–Phelps. Review of Economics and Institutions 2 (1), 124.Google Scholar
Akachi, Yoko and Canning, David (2010) Health trends in sub-Saharan Africa: Conflicting evidence from infant mortality rates and adult heights. Economics and Human Biology 8 (2), 273288.Google Scholar
Aksan, Anna-Maria and Chakraborty, Shankha (2013a) Childhood disease and the precautionary demand for children. Journal of Population Economics 26 (3), 855885.Google Scholar
Aksan, Anna-Maria and Chakraborty, Shankha (2013b) Twin Transitions. MPRA paper 49929, available at http://mpra.ub.uni-muenchen.dk/49929/.Google Scholar
Alderman, Harold, Behrman, Jere R. and Hoddinott, John (2005) Nutrition, malnutrition, and economic growth. In López-Casasnovas, Guillem, Rivera, Berta, and Currais, Luis (eds), Health and Economic Growth: Findings and Policy Implications, pp. 169194. Cambridge, MA: MIT Press.Google Scholar
Arora, Suchit (2001) Health, human productivity and long-term economic growth. Journal of Economic History 61 (3), 699749.Google Scholar
Arora, Suchit (2005) On epidemiologic and economic transitions: A historical view. In López-Casasnovas, Guillem, Rivera, Berta, and Currais, Luis (eds.), Health and Economic Growth: Findings and Policy Implications, pp. 197238. Cambridge, MA: MIT Press.Google Scholar
Arora, Suchit (2013) Understanding aging during the epidemiologic transition. In Hanes, Christopher and Wolcott, Susan (eds.), Research in Economic History, Vol. 29, pp. 169. Bingley, UK: Emerald Group Publishing Limited.Google Scholar
Bils, Mark and Klenow, Peter J. (2000) Does schooling cause growth? American Economic Review 90 (5), 11601183.Google Scholar
Bleakley, Hoyt (2007) Disease and development: Evidence from hookworm eradication in the American South. Quarterly Journal of Economics 122 (1), 73117.Google Scholar
Bloom, David E. and Canning, David (2009) Population health and economic growth. In Spence, Michael and Lewis, Maureen (eds.), Health and Growth, pp. 5375. Washington, DC: The World Bank.Google Scholar
Bloom, David E., Canning, David, and Fink, Günther (2014) Disease and development revisited. Journal of Political Economy 122 (6), 13551366.Google Scholar
Bloom, David E. and Sachs, Jeffrey D. (1998) Geography, demography and economic growth in Africa. Brookings Papers on Economic Activity 2, 207295.Google Scholar
Bloom, David E. and Williamson, Jeffrey G. (1998) Demographic transitions and economic miracles in emerging Asia. World Bank Economic Review 12 (3), 419455.Google Scholar
Bolt, Jutta and van Zanden, Jan Luiten (2013) The First Update of the Maddison Project, Re-estimating Growth before 1820. Maddison Project working paper 4.Google Scholar
Bundy, Donald, Shaeffer, Sheldon, Jukes, Matthew, Beegle, Kathleen, Gillespie, Amaya, Drake, Lesley, Lee, Seung-hee Frances, Hoffman, Anna-Maria, Jones, Jack, Mitchell, Arlene, Barcelona, Delia, Camara, Balla, Golmar, Chuck, Savioli, Lorenzo, Sembene, Malick, Takeuchi, Tsutomu, and Wright, Cream (2006) School-based health and nutrition. In Jamison, Dean T., Breman, Joel G., Measham, Anthony R., Alleyne, George, Claeson, Mariam, Evans, David B., Jha, Prabhat, Mills, Anne, and Musgrove, Philip (eds.), Disease Control Priorities in Developing Countries, 2nd ed., Chap. 58. Washington, DC: The World Bank.Google Scholar
Cervellati, Matteo and Sunde, Uwe (2011) Life expectancy and economic growth: The role of the demographic transition. Journal of Economic Growth 16 (2), 99133.Google Scholar
Chakraborty, Shankha (2004) Endogenous lifetime and economic growth. Journal of Economic Theory 116 (1), 119137.Google Scholar
Chen, C.C. (1989) Medicine in Rural China: A Personal Account. Berkeley: University of California Press.Google Scholar
Coe, David T. and Helpman, Elhanan (1995) International R&D spillovers. European Economic Review 39 (5), 859887.Google Scholar
Crafts, Nicholas and Mills, Terence C. (2009) From Malthus to Solow: How did the Malthusian economy really evolve? Journal of Macroeconomics 31 (1), 6893.Google Scholar
Currie, Janet, Stabile, Mark, Manivong, Phongsack, and Roos, Leslie L. (2010) Child health and young adult outcomes. Journal of Human Resources 45 (3), 517–48.Google Scholar
Cutler, David M., Deaton, Angus S., and Lleras-Muney, Adriana (2006) The determinants of mortality. Journal of Economic Perspectives 20 (3), 97120.Google Scholar
Delgado, Michael S., Henderson, Daniel J., and Parmeter, Christopher F. (2013) Does education matter for economic growth? Oxford Bulletin of Economics and Statistics 76 (3), 334354.Google Scholar
Dickson, Rumona, Awasthi, Shally, Williamson, Paula, Demellweek, Colin, and Garner, Paul (2000) Effects of treatment for intestinal helminth infection on growth and cognitive performance in children: Systematic review of randomised trials. British Medical Journal 320, 16971701.Google Scholar
Dinopoulos, Elias and Thompson, Peter (1998) Schumpeterian growth without scale effects. Journal of Economic Growth 3 (4), 313335.Google Scholar
Dinopoulos, Elias and Waldo, Douglas (2005) Gradual product replacement, intangible-asset prices and Schumpeterian growth. Journal of Economic Growth 10 (2), 135157.Google Scholar
Fincher, Corey L., Thornhill, Randy, Murray, Damian R., and Schaller, Mark (2008) Pathogen prevalence predicts human cross-cultural variability in individualism/collectivism. Proceedings of the Royal Society B: Biological Sciences 275 (1640), 12791285.Google Scholar
Fogel, Robert W. (1994) Economic growth, population theory, and physiology: The bearing of long-term processes on the making of economic policy. American Economic Review 84 (3), 369395.Google Scholar
Fogel, Robert W. (2004) Health, nutrition, and economic growth. Economic Development and Cultural Change 52 (3), 643658.Google Scholar
Glewwe, Paul and King, Elizabeth M. (2001) The impact of early childhood nutritional status on cognitive development: Does the timing of malnutrition matter? World Bank Economic Review 15 (1), 81113.Google Scholar
Gorodnichenko, Yuriy and Roland, Gerard (2016) Culture, institutions and the wealth of nations. Review of Economic Studies (forthcoming).Google Scholar
Grantham-McGregor, Sally (1995) A review of studies of the effect of severe malnutrition on mental development. Journal of Nutrition 125 (8), 2233S.Google Scholar
Ha, Joonkyung and Howitt, Peter (2007) Accounting for trends in productivity and R&D: A Schumpeterian critique of semi-endogenous growth theory. Journal of Money, Credit and Banking 39 (4), 733774.Google Scholar
Holding, Penny A. and Snow, Robert W. (2001) Impact of Plasmodium falciparum malaria on performance and learning: Review of the evidence. American Journal of Tropical Medicine Hygiene 64 (1), 6875.Google Scholar
Howitt, Peter (2000) Endogenous growth and cross-country income differences. American Economic Review 90 (4), 829–46.Google Scholar
Howitt, Peter (2005) Health, human capital, and economic growth: A Schumpeterian perspective. In López–Casasnovas, Guillem, Rivera, Berta, and Currais, Luis (eds.), Health and Economic Growth: Findings and Policy Implications, pp. 1940. Cambridge, MA: MIT Press.Google Scholar
Jack, William and Lewis, Maureen (2009) Health Investments and Economic Growth: Macroeconomic Evidence and Microeconomic Foundations. World Bank policy research working paper 4877.Google Scholar
Knowles, Stephens and Owen, P. Dorian (1995) Health capital and cross-country variation in income per capita in the Mankiw–Romer–Weil model. Economics Letters 48 (1), 99106.Google Scholar
Knowles, Stephens and Owen, P. Dorian (1997) Education and health in an effective-labour empirical growth model. Economic Record 73 (223), 314328.Google Scholar
Komlos, John (1998) Shrinking in a growing economy? The mystery of physical stature during the Industrial Revolution. Journal of Economic History 58 (3), 779802.Google Scholar
Lee, Kwang-Sun (2007) Infant mortality decline in the late 19th and early 20th centuries: The role of market milk. Perspectives in Biology and Medicine 50 (4), 585602.Google Scholar
Ljungberg, Jonas and Nilsson, Anders (2009) Human capital and economic growth: Sweden 1870–2000. Cliometrica 3 (1), 7195.Google Scholar
Lorentzen, Peter, McMillan, John, and Wacziarg, Romain (2008) Death and development. Journal of Economic Growth 13 (2), 81124.Google Scholar
Lucas, Robert E. Jr., (1988) On the mechanisms of economic development. Journal of Monetary Economics 22 (1), 342.Google Scholar
Madsen, Jakob B. (2007) Technology spillover through trade and TFP convergence: 135 years of evidence for the OECD countries. Journal of International Economics 72 (2), 464480.Google Scholar
Madsen, Jakob B. (2008) Semi-endogenous models versus Schumpeterian theory: International evidence over a century. Journal of Economic Growth 13 (1), 126.Google Scholar
Madsen, Jakob B. (2014) Human capital and the world technology frontier. Review of Economics and Statistics 96 (4), 676692.Google Scholar
Mayer-Foulkes, David (2005) Human development traps and economic growth. In Lopez-Casasnovas, Guillem, Rivera, Berta, and Currais, Louis (eds.), Health and Economic Growth: Findings and Policy Implications, pp. 115141. Cambridge, MA: MIT Press.Google Scholar
Peretto, Pietro F. (1998) Technological change and population growth. Journal of Economic Growth 3 (4), 283311.Google Scholar
Peretto, Pietro and Smulders, Sjak (2002) Technological distance, growth and scale effects. Economic Journal 112 (481), 603624.Google Scholar
Preston, Samuel H. (1996) Population studies of mortality. Population Studies 50 (3), 525536.Google Scholar
Schaible, Ulrich E. and Kaufmann, Stefan H.E. (2007) Malnutrition and infection: Complex mechanisms and global impacts. Public Library of Science Medicine 4 (5), 806812.Google Scholar
Schaller, Mark and Murray, Damian R. (2008) Pathogen, personality, and culture: Disease prevalence predicts worldwide variability in sociosexuality, extraversion, and openness to experience. Journal of Personality and Social Psychology 95 (1), 212221.Google Scholar
Scrimshaw, Nevin S. (1998) Malnutrition, brain development, learning, and behavior. Nutrition Research 18 (2), 351379.Google Scholar
Starr, John M., Deary, Ian J., Inch, Susan, Cross, Susan, and Maclennan, William J. (1997) Age-associated cognitive decline in healthy old people. Age and Ageing 26 (4), 295300.Google Scholar
Szreter, Simon (1988) The importance of social intervention in Britain's mortality decline c. 1850–1914: A re-interpretation of the role of public health. Social History of Medicine 1 (1), 138.Google Scholar
Tucker, Todd (2006) The Great Starvation Experiment: Ancel Keys and the Men Who Starved for Science. Minneapolis: University of Minnesota Press.Google Scholar
United Nations (2008) Four studies of education growth: Inequality by wealth, age effects, sub-national learning differentials and projections. Education Policy and Data Center.Google Scholar
Vanhaute, Eric, Paping, Richard, and Gráda, Cormac Ó (2007) The European subsistence crisis of 1845–1850. A comparative perspective. In O'Gráda, Cormac, Paping, Richard, and Vanhaute, Eric (eds.), When the Potato Failed. Causes and Effects of the “Last” European Subsistence Crisis, 1845–1850, pp. 1540. Turnhout, Belgium: Brepols Publishers.Google Scholar
Watkins, William E. and Pollitt, Ernesto (1997) “Stupidity or worms”: Do intestinal worms impair mental performance? Psychological Bulletin 121 (2), 171191.Google Scholar
Weil, David N. (2007) Accounting for the effect of health on economic growth. The Quarterly Journal of Economics 122 (3), 12651306.Google Scholar
Zhang, Jie and Zhang, Junsen (2005) The effect of life expectancy on fertility, saving, schooling and economic growth: Theory and evidence. Scandinavian Journal of Economics 107 (1), 4566.Google Scholar